MOHAMED SATHAK ENGINEERING COLLEGEDEPARTMENT OF AERONAUTICAL ENGINEERING REGULATION – 2013
B.E. AERONAUTICAL ENGINEERING
DEPARTMENT VISION :
The Department of Aeronautical Engineering envisions becoming acenterof excellence, equippingthe students with value and skill based education, pursing globally relevant research and producingprofessionals committed to nation building.
DEPARTMENT MISSION :
To impart high quality technical education and unique interdisciplinary experiences. To develop students into engineering leaders with analytical, computational and design
capabilities to provide sustainablesolutions. To expose the students to the current trends and opportunities in the global Aerospace
industry. To inculcate professional responsibility based on an innate ethical valuesystem.
PO.NO
PROGRAM OUTCOMES
A Ability to solve the engineering problems of mathematics, science and engineering
B An engineering acumen in identifying, formulating, analyzing and solving complexengineering problem
C Developing processes, solutions to the problems which are safe socially, culturally andenvironmentally.
D Ability to model, analyzeand simulateoperations of aircraft components and parts.
E Capability of exhibiting sound theoretical and practical knowledge in core domainslike aircraft structures, aerodynamics and propulsion and are able to solve problemsrelated to airflow overfixed and rotary wing aircrafts.
F Understanding of the impact of engineering solutions in aglobal, economic,environmental, and societalcontext
G An ability to design asystem, component, orprocess to meet desired needs withinrealisticconstraints such as economic, environmental, social, political, ethical, healthand safety, manufacturability, and sustainability.
H Commitment to professional ethics and responsibilities and norms as prescribed bythe Aviation bodies such as DGCA .
I Ability to work in team and have practical exposure in modeling of UAV, hovercrafts.
J Ability to communicate effectively with the aerospace community using reports,presentations and documentations.
K Ability to manage the projects in various aerospace fields of structure, propulsion,avionics.
L A readiness to engage in lifelong learning and understanding of contemporary issuesin aviation industry.
PSO.NO
PROGRAM SPECIFIC OUTCOMES (PSOs)
PSO1 Apply knowledge in emerging and varied areas of Aerospace Engineering for higherstudies, research, employment and product product development.
PSO2 Communicate theirskills and have asense of responsibility to protect the environmentand have ethical conduct towards
their profession and commitment to serve the society.
PSO3 Exhibit managerial skills and leadership qualities while understanding the need forlifelong learning to be competent professionals.
SemesterCourse wise PO mapping
Course Title a b c d e f g h i j k l
YEA
R I
ISE
MEST
ER
Technical English – I Mathematics – I Engineering Physics – I Engineering Chemistry – I
Computer Programming
Engineering Graphics Computer Practices Laboratory
Engineering Practices LaboratoryPhysics and Chemistry Laboratory - I
IISE
MEST
ER
Technical English – II Mathematics – II Engineering Physics – II BasicElectrical,ElectronicsandInstrumentation Engineering
Engineering Chemistry – II
Engineering Mechanics Physics and Chemistry Laboratory - II
Computer Aided Drafting and ModelingLaboratory
YEARII IIISEMES TE R
Transforms and Partial DifferentialEquations
Manufacturing Technology Aero Engineering Thermodynamics Fluid Mechanics and Machinery Strength of Materials for MechanicalEngineers
2
Elements of Aeronautical Engineering
Strength of Materials Laboratory
CAM and Manufacturing Laboratory
Thermodynamics Laboratory
Fluid Mechanics & MachineryLaboratory
IVSEMESTER
Numerical Methods Aerodynamics - I Aircraft Systems and Instruments Mechanics of Machines Aircraft Structures - I Propulsion - I
CAD and Aircraft Component Drawing Aerodynamics Laboratory
AIRCRAFT STRUCTURE-I laboratory
YEARIII
VSEMESTER
Flight Dynamics Aircraft Structures - II Aerodynamics - II Propulsion - II Control Engineering Environmental Science and Engineering Aircraft Structures-II Laboratory Propulsion Laboratory Professional Communication
Principles of Management
3
Composite Materials and Structures Vibrations And Elements Of Aeroelasticity Aircraft Materials And Processes AircraftGeneralEngineeringandMaintenance Practices Aero Engine and Airframe Laboratory Computer Aided Simulation Laboratory Aircraft Design Project - I
IV YEAR
VII
SEME
STER
Total Quality Management Avionics Computational Fluid Dynamics Experimental Stress Analysis
Fatigue and Fracture
Airframe Maintenance and Repair Flight Integration Systems and ControlLaboratory Aircraft Systems Laboratory Aircraft Design Project - II
VIII
SEM
EST E
R
Wind Tunnel Techniques
Rockets and Missiles Project Work
4
MAPPING OFS.NO COURSE NAME COURSE OUTCOME
PO’S
speak clearly, confidently, comprehensibly, andcommunicate with one ormany listeners usingappropriate communicative strategies. write cohesively and coherently and flawlesslyavoiding grammatical errors, using awide
1 vocabulary range, organizing theirideas logically on a FJL
HS6151-TECHNICALtopic. read different genres of texts adopting various
ENGLISH-I reading strategies. listen/view and comprehend different spokendiscourses/excerpts in different accents
2MA6151-MATHEMATICS-I
This course equips students to have basic knowledgeand understanding in one fields ofmaterials, integral and differential calculus.
ABCD
The students will have knowledge on the basics ofPH6151 physics related to properties of matter,
3 ENGINEERINGoptics, acoustics etc., and they will apply thesefundamental principles to solve practical
ABCDEG
PHYSICS-I problems related to materials used for engineeringapplications.
CY6151 The knowledge gained on polymer chemistry,thermodynamics. spectroscopy, phase rule
4 ENGINEERING and nano materials will provide a strong platform tounderstand the concepts on these
ABCDEG
CHEMISTRY-I subjects for further learning.
perform free hand sketching of basicgeometrical
5
GE6152-ENGINEERING
constructions and multiple views of objects. do orthographicprojection of lines and planesurfaces. draw projections and solids and development of ABCD
GRAPHICS surfaces. prepare isometricand perspective sections of simplesolids. demonstrate computeraided drafting.
6
GE6151-
COMPUTING
PROGRAMMING
Design C Programsforproblems. Write and execute C programs forsimpleapplications.
ABCDGIK
7
GE6161 -COMPUTERPRACTICELABORATORY -I
Apply good programming design methods forprogram development. Design and implement C programs for simpleapplications. Develop recursiveprograms.
ABCDG
8
GE6162 -ENGINEERINGPRACTICESLABORATORY
ability to fabricate carpentry components and pipeconnections including plumbing works.ability to use welding equipments to join thestructures. ability to fabricate electrical and electronics circuits.
ABCDG
9GE6163- PHYSICSAND CHEMISTRYLABORATORY – I
The hands on exercises undergoneby the studentswillhelp them to apply physics principlesof optics and thermal physics to evaluate engineeringproperties of materials.
The students will be outfitted with hands-onknowledge in the quantitative chemical analysis ofwater quality related parameters.
ABCDG
10HS6251 -TECHNICALENGLISH – II*
Speak convincingly, express theiropinions clearly,initiate adiscussion, negotiate, argue usingappropriate communicative strategies. Write effectively and persuasively and producedifferent types of writing such as narration,description, exposition and argument as well ascreative, critical, analytical and evaluativewriting. Read different genres of texts, infer impliedmeanings and critically analyse and evaluate themfor ideas as well as for method of presentation. Listen/view and comprehend different spokenexcerpts critically and inferunspoken andimplied meanings.
FJL
11MA6251 -MATHEMATICS –II*
The subject helps the students to develop thefundamentals and basic concepts in vectorcalculus, ODE, Laplace transform and complexfunctions. Students will be able to solveproblems related to engineering applications by usingthese techniques.
ABCD
12PH6251 -ENGINEERINGPHYSICS – II*
The students will have the knowledge on physics ofmaterials and that knowledge will be usedby them in different engineering and technologyapplications.
ACEFG
13CY6251 -ENGINEERINGCHEMISTRY – II*
The students will havethe knowledgeon physicsofmaterials and that knowledge will be usedby them in different engineering and technologyapplications.
ACEFG
14GE6253 -ENGINEERINGMECHANICS
ability to explain the differential principles applies tosolve engineering problems dealing withforce, displacement, velocity and acceleration. ability to analyse the forces in any structures. ability to solve rigid body subjected todynamicforces.
ABCEG
15
GE6261 -COMPUTER AIDEDDRAFTINGANDMODELINGLABORATORY
ability to use the software packers fordrafting andmodeling ability to create 2D and 3D models of EngineeringComponents
ACGL
16GE6262 5-PHYSICS& CHEMISTRYLABORATORY - II*
The students will havethe ability to test materialsbyusing theirknowledge of applied physicsprinciples in optics and properties of matter.
ABCEG
17
MA6351 -TRANSFORMS ANDPARTIALDIFFERENTIALEQUATIONS
The understanding of the mathematical principles ontransforms and partial differentialequations would provide them the ability to formulateand solve some of the physical problemsof engineering.
ABCD
18ME6352-MANUFACTURINGTECHNOLOGY
The Students can able to use differentmanufacturing process and use this in industry forcomponent production
ACEFG
19AE6301-AEROENGINEERINGTHERMODYNAMICS
Apply Mathematical foundations, principles in solvingthermodynamics problems. Critically analyse the problem, and solvetheproblems related to heat transferand propulsion
ABCDEK
20CE6451- FLUIDMECHANICS ANDMACHINERY
Upon completion of this course, the students canable to apply mathematical knowledge topredict the properties and characteristics of afluid. Can critically analyse the performance of pumps andturbines.
ABCDEK
21CE6452- SOLIDMECHANICS
Solve the problems related to the structuralcomponents undervarious loading conditions..
ABCDEK
22AE6302 ELEMENTSOF AERONAUTICS
Upon completion of this course, the students canable to apply mathematical knowledge topredict the properties and characteristics of a fluid. Can critically analyse the performance of pumps andturbines.
CEFIL
23CE6315 STRENGTHOF MATERIALSLABORATORY
Ability to perform different destructive testing Ability tocharacteristicmaterials
ABCDEK
24
CE6461- FLUIDMECHANICS ANDMACHINERYLABORATORY
Ability to use the measurement equipments forflowmeasurement Ability to do performance trust on different fluidmachinery
ABCDEK
25AE6311 -THERMODYNAMICSLABORATORY
Ability to perform test on diesel/petrol engine Ability to explain the characteristics of thediesel/Petrol engine Ability to determine the properties of the fuels.
ABCDEK
26AE6312 - CAM ANDMANUFACTURINGLABORATORY
Ability to design and model difficult aero componentand perform structural analysis using availablesoftware packages
ABCDEK
27MA6459-NUMERICALMETHODS
The students will haveaclearperceptionof thepowerof numerical techniques, ideas andwould be able to demonstrate the applications ofthese techniques to problems drawn fromindustry, management and otherengineering fields.
ABCD
28AE6401-AERODYNAMICS – I
An ability to apply airfoil theory to predict air foilperform A knowledgeof incompressibleflow An explosiveto Boundarylayertheory
ABCDEK
29AE6402- AIRCRAFTSYSTEMS ANDINSTRUMENTS
Know the operation of airplane control system,Engine system, Airconditioning and pressingsystem. Know the operation of airdata Instruments system
CEFGIK
30AT6302 -MECHANICS OFMACHINES
To understand the principles in the formation ofmechanisms and theirkinematics. To understand the effect of friction in differentmachine elements. To analyse the forces and toques acting on simplemechanical systems
ABCF
To understand the importance of balancing andvibration.
31AE6403- AIRCRAFTSTRUCTURES – I
To provide the students an understanding on thelinearstaticanalysis of determinate andindeterminate aircraft structural components. To provide the design process using different failuretheories.
ABCDEK
32AE6404-PROPULSION – I
To introduce basic concepts and salient features ofengine components of jet propelled engineswhich are operated in atmosphere to students. Thiscourse is also aimed at making studentsfamiliarize with advanced jet propulsion methods likehypersonic propulsion.
ABCDHK
33AE6411- AIRCRAFTSTRUCTURES LAB –I
To study the properties of materials used in Aircraftstructure. To study the failure of different component underdifferent loadingcondition
ABCDEK
34AE6412 -AERODYNAMICSLABORATORY
To predict different aerodynamicpropulsion used inaero application
ABCDEK
35
AE6413- CAD ANDAIRCRAFTCOMPONENTDRAWING
To introduce the concept of design of basicstructuralcomponents and to draft both manually andusing modelling package.
DGK
37AE6501- FLIGHTDYNAMICS
To study the performance of airplanes undervariousoperating conditions and the staticand dynamicresponse of aircraft forboth voluntary and involuntarychanges in flight conditions
ABCDFI
38AE6502- AIRCRAFTSTRUCTURES – II
To provide the students various methods foranalysisof aircraft wings and fuselage. To provide the the behavior of major aircraftstructural components.
ABCDEK
39AE6503AERODYNAMICS –II
To introduce the concepts of compressibility, To make the student understand the theory behindthe formation of shocks and expansionfans in Supersonicflows. To introduce the methodology of measurements inSupersonicflows..
ABCDEK
40AE6504 -PROPULSION – II
To impart knowledge in non-air-breathing andhypersonic propulsion methods to students so thatthey are familiar with various propulsion technologies
ABCDEK
associated with space launch vehicles,missiles and space probes.
41AE6505 CONTROLENGINEERING
To introduce the mathematical modeling of systems,open loop and closed loop systems andanalyses in time domain and frequency domain. To impart the knowledgeon the concept of stabilityand various methods to analyze stability inboth time and frequency domain. To introduce sampled datacontrolsystem.
ABCDK
42
GE6351ENVIRONMENTALSCIENCE ANDENGINEERING
To the study of nature and the facts aboutenvironment. To finding and implementing scientific, technological,economicand political solutions toenvironmental problems. To study the interrelationship between livingorganism andenvironment. To appreciate the importance of environment byassessing its impact on the human world;envision the surrounding environment, its functionsand its value. To study the dynamicprocesses and understand thefeatures of the earth’s interiorandsurface. To study the integrated themes and biodiversity,natural resources, pollution control and wastemanagement.
CF
43AE6511 AIRCRAFTSTRUCTURES LAB –II
To enable the students understand the behaviorofaircraft structural components underdifferent loadingconditions. To provide the Principleinvolved in photo elasticityand its applications in stress analysis forcompositelaminates.
ABCDEK
44AE6512 -PROPULSIONLABORATORY
To familiarize students and to expose thempractically to various aircraft piston and gas turbineengines To give practical exposure to various testingmethodsof variable areaducts, propellants, jetengine components and rockets To practically determinethe flow behaviorof j
ABCDEK
45
GE6563COMMUNICATIONSKILLSLABORATORY
To provide opportunities to learners topractice theircommunicative skills to make them become proficientusers of English. To enable learners to fine-tunetheirlinguisticskills(LSRW) with the help of technology tocommunicate globally.
FJL
To enhance the performance of learners atplacement interviews and group discussions and otherrecruitment procedures
46MG6851 -PRINCIPLES OFMANAGEMENT
To enable the students to study the evolution ofManagement, to study the functions and principles ofmanagement and to learn the application of theprinciples in an organization.
FJL
47AE6601 FINITEELEMENT METHOD
To give exposure various methods of solution and inparticularthe finite element method. Gives exposuretothe formulation and the procedure of the finiteelement method and its application to varieties ofproblems.
ABCDEFGIKL
48
AE6602 -VIBRATIONS ANDELEMENTS OFAEROELASTICITY
To study the effect of time dependent forces onmechanical systems and to get the naturalcharacteristics of system with more degree of freedomsystems. To study the aero elasticeffects of aircraft wing.
ABCEG
49
AE6603 -COMPOSITEMATERIALS ANDSTRUCTURES
To make the student understand the analysis ofcomposite laminates underdifferent loadingconditions and different environmental conditions.
ABCEG
50AE6604 - AIRCRAFTMATERIALS ANDPROCESSES
To study the types of mechanical behavior of materialsfor aircraft applications
ABCDEK
51
AE6002 AIRCRAFTGENERALENGINEERINGANDMAINTENANCE(E-I)
To teach the students about the basicconcepts ofaircraft general engineering andmaintenance practices.
CGHIL
52
AE6611 - AEROENGINE ANDAIRFRAMELABORATORY
To introduce the knowledge of the maintenance andrepairprocedures followed foroverhaul ofaero engines.
CHL
53AE6612- AIRCRAFTDESIGN PROJECT – I
To make the student work in groups and understandthe Concepts involved in Aerodynamicdesign, Performanceanalysis and stability aspects ofdifferent types of airplanes
BCDEFGIKL
54
AE6613 -COMPUTER AIDEDSIMULATIONLABORATORY
To make the students familiarize with computationalfluid dynamics and structural analysis softwaretools.By employing these tools for Aerospaceapplicationsstudents will have an opportunity to exposethemselves to simulation software.
BCDEFGIKL
55GE6757- TOTALQUALITYMANAGEMENT
To facilitate the understanding of Quality Managementprinciples and process.
FJL
56 AE6701- AVIONICS
To introduce the basicof avionics and its need forcivil and military aircrafts To impart knowledge about the avionicarchitectureand various avionicsdatabuses To gain more knowledgeon various avionicssubsystems
BCIK
57ME6014COMPUTATIONALFLUID DYNAMICS
To introduce Governing Equations of viscous fluidflows To introduce numerical modeling and its role in thefield of fluid flowand heat transfer To enable the students to understand the variousdiscretization methods, solutionproceduresand turbulence modeling. To create confidence to solve complexproblems inthe field of fluid flow and heat transferbyusing high speed computers.
ABCDEFGIKL
58AE6702 -EXPERIMENTALSTRESS ANALYSIS
To study the various experimental techniques involvedfor measuring displacements, stresses, strains instructural components.
ABEIK
59AE6007 - FATIGUEANDFRACTURE(E-II)
To understand the basicconcepts involved in fatigueanalysis and to study the importance of fracturemechanics in aerospace applications.
ACDL
60
AE6010 -AIRFRAMEMAINTENANCEANDREPAIR(E-II)
To make the students to understand the Airframecomponents and the tools used to maintain thecomponents. Defect investigation, methods to carryout investigation and the detailed maintenance andpractice procedures.
CGHIL
61AE6711 - AIRCRAFTDESIGN PROJECT -II
Each group of students is assigned to continue thestructural design part of the airplane. The followingare the assignments are to be carried out.1. Preliminary design of an aircraft wing – Shrenck’scurve, structural load distribution, shearforce, bending moment and torque diagrams2. Detailed design of an aircraft wing – Design of sparsand stringers, bending stress and shearflow calculations – buckling analysis of wing panels3. Preliminary design of an aircraft fuselage –loaddistribution on an aircraft fuselage4. Detailed design of an aircraft fuselage – design ofbulkheads and longerons –bending stressand shearflow calculations – buckling analysis of
BDEFGHJL
fuselage panels5. Design of control surfaces - balancing andmaneuvering loads on the tail plane and aileron,rudderloads6. Design of wing-root attachment7. Landing geardesign8. Preparation of a detailed design report with CADdrawings
62AE6712- AIRCRAFTSYSTEMSLABORATORY
To train the students “ON HAND” experience inmaintenance of various air frame systems in aircraftand rectification of common snags.
CHL
63
AE6713 - FLIGHTINTEGRATIONSYSTEMS ANDCONTROLLABORATORY
This laboratory is to train students, to study aboutbasicdigital electronics circuits, variousmicroprocessorapplications in Control surface,Displays fault tolerant computers, to study the stabilityanalysis and design using MATLAB.
BCIK
64AE6801- WINDTUNNELTECHNIQUES
The students are exposed to various types andtechniques of Aerodynamicdatageneration onaerospace vehicle configurations in the aerospaceindustry.
DEGIL
65AE6811- PROJECTWORK
To develop the ability to solve aspecificproblem rightfrom its identification and literaturereview till thesuccessful solution of the same. To train the studentsin preparing project reports and to face reviews andvivavoce examination
ABCDEFGHIJKL
676AE6015 - ROCKETSANDMISSILES
To give exposure on important topics likerocketmotion, rocket aerodynamics and staging & control ofrockets to students to enrich theirknowledge in thearea of missile flight.
CEGKL
MOHAMED SATHAK ENGINEERING COLLEGEKILAKARAI – 623 806.
FACULTY OF CIVIL ENGINEERINGB.E – CIVIL ENGINEERING
VISION:The vision of civil engineering department strives to become a nationally and internationally leading institution of higher learning, to
graduate highly qualified engineers, maintain nationally recognized research to provide quality professional and community service to the region
and the world.
MISSION:The mission of civil engineering department is to provide quality education to prepare nationally competitive students for a successful
career in civil engineering; to provide advanced skills, knowledge in state of art of research and design in sub areas of civil engineering for
graduate students; to inculcate moral and ethical values among the students; to provide service to the engineering profession and public; and to
have regular interaction with industry and offer solutions to their problems.
Programme Outcomes
PO.SL.NO
PROGRAM OUTCOMES
AApply knowledge of mathematics, science and basic engineering and core civil engineering to the delineate and functional
engineering structures.
BDesign the civil engineering structures / component / process to meet desired needs with appropriate consideration for the public
health and safety, cultural, societal, sustainability and environmental considerations.
C Use all surveying equipments and carry out the surveying works related to all civil engineering projects.
D A basic level competency in specialized areas of civil engineering such as environmental; hydraulics and hydrology; structures;mechanics and materials; transportation.
E Identify, formulate, analyze and solve civil engineering problems using advanced tools.
F Understand the knowledge of civil engineering practice codes and norms related to the profession.
G Use the current development, techniques, skills and modern engineering software's necessary for engineering practices.
HRecognize the need for and to engage in lifelong learning of civil engineering and allied domains as relevant to rapidly changing
technology.
ICommunicate effectively with engineering community, society at large, such as being able to comprehend and write effective
reports, prepare documentation, make effective presentations, give and receive clear instructions.
JWorking ability as members of multi disciplinary project or research team and have an understanding of leadership in teams and
organizations.
K An understanding of professional and ethical responsibilities in civil engineering practices.
L An understanding business, public policy and administration fundamentals.
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs) :
SL. NO PEOs
I To prepare students for successful careers in Civil Engineering field that meets the needs of Indian and multinational companies
IITo develop the confidence and ability among students to synthesize data and technical concepts and thereby apply it in real world
problems
III To develop students to use modern techniques, skill and mathematical engineering tools for solving problems in Civil Engineering.
IVTo provide students with a sound foundation in mathematical, scientific and engineering fundamentals necessary to formulate,
solve and analyse engineering problems and to prepare them for graduate studies.
VTo promote students to work collaboratively on multi-disciplinary projects and make them engage in life-long learning process
throughout their professional life.
PROGRAMME SPECIFIC OBJECTIVES (PSOs) :
SL. NO PSOs
1The Graduates in this program with proficiency in mathematics and physical sciences will excel in the core areas of civilengineering such as structural, environmental and water resources engineering.
2 The graduates will plan, produce detailed drawings, write specification, and prepare cost estimates.
3 The graduates will interact with stakeholders effectively and execute quality construction work applying necessary tools.
PEOs & POs
The B.E. Civil Engineering Program outcomes leading to the achievement of the objectives are summarized in the following Table.
PEOsProgram outcomes
A B C D E F G H I J K L
I √ √ √ √
II √ √
III √ √ √ √
IV √ √
V √ √ √ √
List the Course Outcomes (COs) and Mapping with Programme Outcomes (POs) and PROGRAMME SPECIFIC OBJECTIVES (PSOs)
S.No Course name Course outcome Mapping of PO's & PSO’s
HS6151 Technical English I
1
C101.1 Develop the learner’s basic communication skills in English.
H,I,K,L,PSO2
C101.2Emphasize specially the development of speaking skills amongst learners of Engineering
and Technology.
C101.3Ensure that learners use the electronic media such as internet and supplement the
learning materials used in the classroom.
C101.4Inculcate the habit of reading and writing leading to effective and efficient
communication.
MA6151 Mathematics I
2
C102.1Develop the use of matrix algebra techniques this is needed by engineers for practical
applications.
A,B,E, PSO2C102.2
Make the student knowledgeable in the area of infinite series and their convergence so
that he/ she will be familiar with limitations of using infinite series approximations for
solutions arising in mathematical modelling.C102.3
Familiarize the student with functions of several variables. This is needed in many
branches of engineering.
C102.4Introduce the concepts of improper integrals, Gamma, Beta and Error functions which are
needed in engineering applications.
C102.5Acquaint the student with mathematical tools needed in evaluating multiple integrals and
their usage.
PH6151 Engineering Physics I
3
C103.1Enhance the fundamental knowledge in Physics and its applications relevant to various
streams of Engineering and technology.
A.B,E,G, PSO1C103.2 Students expand the knowledge in the area of application of different concepts in physics.
C103.3Students utilize the knowledge developed to understand large number of engineering
subjects.
CY6151 Engineering Chemistry I
4
C104.1 Make the students conversant with basics of polymer chemistry.
A,B,E,G, PSO2
C104.2Make the student acquire sound knowledge of second law of thermodynamics and second
law based derivations of importance in engineering applications in all disciplines.
C104.3Acquaint the student with concepts of important photo physical and photochemical
processes and spectroscopy.
C104.4Develop an understanding of the basic concepts of phase rule and its applications to single
and two component systems and appreciate the purpose and significance of alloys.
C104.5 Acquaint the students with the basics of nano materials, their properties and applications.
GE6151 Computer Programming
5 C105.1 Learn the organization of a digital computer. A,B,C,E,F,G,H, PSO3
C105.2 Be exposed to the number systems.
C105.3 Learn to think logically and write pseudo code or draw flow charts for problems.
C105.4 Be exposed to the syntax of C.
C105.5 Be familiar with programming in C.
C105.6 Learn to use arrays, strings, functions, pointers, structures and unions in C.
GE6152 Engineering Graphics
6C106.1
Develop in students, graphic skills for communication of concepts, ideas and design of
engineering products.C,D,E,G, PSO1
C106.2 Expose them to existing national standards related to technical drawings.
GE6161 Computer Practices Laboratory
7
C107.1 Be familiar with the use of Office software.
A,B,C,E,F,G,H, PSO1C107.2 Be exposed to presentation and visualization tools.
C107.3 Be exposed to problem solving techniques and flow charts.
C107.4 Be familiar with programming in C.
C107.5 Learn to use Arrays, strings, functions, structures and unions.
GE6162 Engineering Practices Laboratory
8 C108.1 Provide exposure to the students with hands on experience on various basic engineering
practices in Civil, Mechanical, Electrical and Electronics Engineering.A,B,PSO3
GE6163 Physics & Chemistry Laboratory I
9 C109.1 Introduce different experiments to test basic understanding of physics concepts applied in
optics, thermal physics and properties of matter.A,B,E,G, PSO2
HS6251 Technical English II
10
C110.1 Make learners acquire listening and speaking skills in both formal and informal contexts.
H,I,K,L, PSO2
C110.2Help them develop their reading skills by familiarizing them with different types of
reading strategies.
C110.3 Equip them with writing skills needed for academic as well as workplace contexts.
C110.4Make them acquire language skills at their own pace by using e-materials and language
lab components.
MA6251 Mathematics II
11
C111.1 Make the student acquire sound knowledge of techniques in solving ordinary differential
equations that model engineering problems.A,B,E, PSO2
C111.2Acquaint the student with the concepts of vector calculus needed for problems in all
engineering disciplines.
C111.3Develop an understanding of the standard techniques of complex variable theory so as to
enable the student to apply them with confidence, in application areas such as heat
conduction, elasticity, fluid dynamics and flow the of electric current.C111.4Make the student appreciate the purpose of using transforms to create a new domain in
which it is easier to handle the problem that is being investigated.
PH6251 Engineering Physics II
12
C112.1 Enrich the understanding of various types of materials and their applications in
engineering and technology.
A.B,E,G, PSO1C112.2 Will have an idea about conducting, non conducting magnetic material.
C112.3 Will know the different modern engineering materials and use it when they doing their
projects.
CY6251 Engineering Chemistry II
13
C113.1 Make the students conversant with boiler feed water requirements, related problems and
water treatment techniques.
A.B,E,G, PSO2
C113.2Principles of electrochemical reactions, redox reactions in corrosion of materials and
methods for corrosion prevention and protection of materials.
C113.3Principles and generation of energy in batteries, nuclear reactors, solar cells, wind mills
and fuel cells.
C113.4 Preparation, properties and applications of engineering materials.
C113.5 Types of fuels, calorific value calculations, manufacture of solid, liquid and gaseous fuels.
GE6252 Basic Electrical and Electronics Engineering
14
C114.1 explain the basic theorems used in Electrical circuits and the different components and its
function
A,B,E,I,K, PSO1C114.2 Explain the fundamentals of semiconductor and applications, principles of digital
electronics.
C114.3 Impart knowledge of communication.
ME6253 Engineering Mechanics
15
C115.1 An ability to explain the differential principles applies to solve engineering problems
dealing with force, displacement, velocity and acceleration.
A,B,D,E,F,K, PSO3
C115.2 Ability to analyse the forces in any structures.
C115.3 Ability to solve rigid body subjected to dynamic forces.
C115.4Develop capacity to predict the effect of force and motion in the course of carrying out
the design functions of engineering.
GE6261 Computer Aided Drafting and Modeling Laboratory
16
C116.1 Ability to use the software packers for drafting and modelling
A,B,E,G,I, PSO1C116.2 Ability to create 2D and 3D models of engineering components
GE6262 Physics and Chemistry Laboratory II
17 C117.1 Introduce different experiments to test basic understanding of physics concepts applied in
optics, thermal physics and properties of matter.A,B,E,G, PSO2
C117.2 Make the student acquire practical skills in the wet chemical and instrumental methods for
quantitative estimation of hardness, alkalinity, metal ion content, corrosion in metals and
cement analysis.MA6351 Transforms and Partial Differential Equations
18
C118.1 Introduce Fourier series analysis this is central to many applications in engineering apart
from its use in solving boundary value problems.
A,B,E, PSO1C118.2 Acquaint the student with Fourier transform techniques used in wide variety of situations.
C118.3Introduce the effective mathematical tools for the solutions of partial differential
equations that model several physical processes and to develop Z transform techniques
for discrete time systems. .GE6351 Environmental Science and Engineering
19
C119.1 Study the nature and facts about environment.
B,DH,I, PSO3
C119.2Finding and implementing scientific, technological, economic and political solutions to
environmental problems.
C119.3 Study the interrelationship between living organism and environment.
C119.4Appreciate the importance of environment by assessing its impact on the human world;
envision the surrounding environment, its functions and its value.
C119.5Study the dynamic processes and understand the features of the earth‟s interior and
surface.
C119.6Study the integrated themes and biodiversity, natural resources, pollution control and waste
management.
CE6301 Engineering Geology
20
C120.1 Will be able to understand the importance of geological knowledge such as earth,
earthquake, volcanism and the action of various geological agencies.
A,B,H, PSO1C120.2Will realize the importance of this knowledge in projects such as dams, tunnels, bridges,
roads, airport and harbor
C120.3 Can choose the types of foundations and other related aspects.
CE6302 Mechanics of Solids
21
C121.1 Learn fundamental concepts of Stress, Strain and deformation of solids with applications
to bars, beams and thin cylinders.
A,B,D,E,FH,I, PSO1, PSO2
C121.2Know the mechanism of load transfer in beams, the induced stress resultants and
deformations.
C121.3 Understand the effect of torsion on shafts and springs.
C121.4 Analyse a complex two dimensional state of stress and plane trusses.
CE6303 Mechanics of Fluids
22
C122.1 The students will be able to get a basic knowledge of fluids in static, kinematic and
dynamic equilibrium.A,B,D,E,G,I, PSO3
C122.2 They will also gain the knowledge of the applicability of physical laws in addressing
problems in hydraulics.
CE6304 Surveying I
23 C123.1 Students are expected to use all surveying equipments, prepare LS & CS, contour maps
and carryout surveying works related to land and civil engineering projects.A,B,C,E,G,I, PSO2
CE6311 Survey Practical I
24 C124.1 Students completing this course would have acquired practical knowledge on handling
basic survey instruments including levelling and development of contour map of given
area.
A,B,C,E,G,I, PSO1
CE6312 Computer Aided Building Drawing
25 C125.1 Introduce the students to draft the plan, elevation and sectional views of buildings in
accordance with development and control rules satisfying orientation and functional
requirements as per National Building Code.
A,B,E,G,I, PSO1
MA6459 Numerical Methods
26
C126.1 It provides the necessary basic concepts of a few numerical methods and give procedures
for solving numerically different kinds of problems occurring in engineering and
technologyA,B,E, PSO1
C126.2 The students will have a clear perception of the power of numerical techniques, ideas and
would be able to demonstrate the applications of these techniques to problems drawn from
industry, management and other engineering fields.CE6401 Construction Materials
27
C127.1 Compare the properties of most common and advanced building materials.
A,D,H,I, PSO3
C127.2 Understand the typical and potential applications of these materials
C127.3 Understand the relationship between material properties and structural form
C127.4 Understand the importance of experimental verification of material properties.
CE6402 Strength Of Materials
28 C128.1 know the method of finding slope and deflection of beams and trusses using energy
theorems and to know the concept of analysing indeterminate beamA,B,D,E,F,K, PSO1
C128.2 Estimate the load carrying capacity of columns, stresses due to unsymmetrical bending and
various theories for failure of material.
CE6403Applied Hydraulic Engineering
29
C129.1 The students will be able to apply their knowledge of fluid mechanics in addressing
problems in open channels.
A,B,D,E,G,H,I,K, PSO2C129.2They will possess the skills to solve problems in uniform, gradually and rapidly varied
flows in steady state conditions.
C129.3 They will have knowledge in hydraulic machineries (pumps and turbines).
CE6404 Surveying
30
C130.1 Understand the advantages of electronic surveying over conventional surveying methods
A,B,C,E,G,I, PSO1, PSO3C130.2Understand the working principle of GPS, its components, signal structure, and error
sources
C130.3Understand various GPS surveying methods and processing techniques used in GPS
observations
CE6405 Soil Mechanics
31
C131.1 To impart knowledge on behavior and the performance of saturated soil.
A,B,D,F,H, PSO2C131.2 At the end of this course student attains adequate knowledge in assessing both physical and
engineering behaviour of soils, mechanism of stress transfer in two-phase systems and
stability analysis of slopes.CE6411 Strength Of Materials Laboratory
32 C132.1 Expose the students to the testing of different materials under the action of various forces
and determination of their characteristics experimentally.A,B,D,E,F,K, PSO2
CE6412 Hydraulic Engineering Laboratory
33
C133.1 The students will be able to measure flow in pipes and determine frictional losses.
A,B,D,E,F,K, PSO1C133.2 The students will be able to develop characteristics of pumps and turbines.
CE6413 Survey Practical II
34 C134.1
Students completing this course would have acquired practical knowledge on handling
survey instruments like Theodolite, Tacheometery and Total station and have adequate
knowledge to carryout Triangulation and Astronomical surveying including general field
marking for various engineering projects and curves setting.
A,B,C,E,G,I, PSO2
CE6501 Structural Analysis I
35
C135.1 Analysis trusses, frames and arches
A,B,D,E,F,K, PSO1C135.2 Analyse structures for moving loads
C135.3 Will be conversant with classical methods of analysis.
CE6502 Foundation Engineering
36 C136.1Impart knowledge on common method of sub soil investigation and design of foundation.
At the end of this course student acquires the capacity to investigate the soil condition and
to select and design a suitable foundation.
A,B,D,F,H, PSO2
CE6503 Environmental Engineering I
37
C137.1 An insight into the structure of drinking water supply systems, including water transport,
treatment and distribution
B,DH,I, PSO3C137.2 An understanding of water quality criteria and standards, and their relation to public health,
C137.3 The ability to design and evaluate water supply project alternatives on basis of chosen
selection criteria
CE6504 Highway Engineering
38 C138.1 Give an overview about the highway engineering with respect to, planning, design,
construction and maintenance of highways as per IRC standards, specifications and
methods.
A,B,D,E,F,G,H, PSO2
CE6505 Design Of Reinforced Concrete Elements
39 C139.1 Introduce the different types of philosophies related to design of basic structural elements
such as slab, beam, column and footing which form part of any structural system with
reference to Indian standard code of practice.
A,B,D,E,F,G,H,J,K, PSO1
CE6506 Construction Techniques, Equipment And Practice
40 C140.1 Make the student aware of the various construction techniques, practices and the
equipment needed for different types of construction activities.
A,D,G,H,I,J,K,L, PSO1,PSO2
GE6563 Communication Skills – Laboratory Based
41
C141.1 Provide opportunities to learners to practice their communicative skills to make them
become proficient users of English.
H,I,K,L, PSO2C141.2 Enable learners to fine-tune their linguistic skills (LSRW) with the help of technology to
communicate globally
C141.3 Enhance the performance of learners at placement interviews and group discussions and
other recruitment procedures.
CE6511 Soil Mechanics Laboratory
42 C142.1 At the end of the course student attains adequate knowledge in assessing both Physical and
Engineering behaviour of soils through laboratory testing procedures.A,B,D,F,H, PSO1
CE6512 Survey camp
43 C143.1Students completing this course would have acquired practical knowledge on handling
survey instruments like Theodolite, Tacheometery and Total station and have adequate
knowledge to carryout Triangulation and Astronomical surveying including general field
marking for various engineering projects and curves setting.
A,B,C,E,G,I, PSO3
CE6601 Design Of Reinforced Concrete & Brick Masonry Structures
44
C144.1 Give an exposure to the design of continuous beams, slabs, staircases, walls and brick
masonry structures and to introduce yield line theory. A,B,D,E,F,G,H,J,K, PSO1,PSO2
C144.2 The student shall have a comprehensive design knowledge related to various structural
systems.
CE6602 Structural Analysis II
45 C145.1 Introduce the students to advanced methods of analysis like matrix methods, Plastic
analysis and FE method and also analysis of space structures.A,B,D,E,F,K, PSO1
CE6603 Design Of Steel Structures
46
C146.1 Introduce the students to limit state design of structural steel members subjected to
compressive, tensile and bending loads, including connections. A,B,D,E,F,G,H,J,K, PSO1,PSO2
C146.2 Design of structural systems such as roof trusses, gantry girders as per provisions of
current code (IS 800 - 2007) of practice.
CE6604 Railways, Airports And Harbour Engineering
47 C147.1 Expose the students to Railway planning, design, construction and maintenance and
planning and design principles of Airports and HarboursA,B,D,E,F,G,H, PSO3
CE6605 Environmental Engineering II
48
C148.1 Ability to estimate sewage generation and design sewer system including sewage pumping
stations
B,DH,I, PSO3C148.2 Required understanding on the characteristics and composition of sewage, self purification
of streams
C148.3 Ability to perform basic design of the unit operations and processes that are used in sewage
treatment
CE6611 Environmental Engineering Laboratory
49 C149.1 Understand the sampling and preservation methods and significance of characterization
of wastewater.B,DH,I, PSO1
CE6612 Concrete And Highway Engineering Laboratory
50 C150.1 Learn the principles and procedures of testing Concrete and Highway materials and to get
hands on experience by conducting the tests and evolving inferences.A,B,D,E,F,G,H, PSO2
CE6701 Structural Dynamics And Earthquake Engineering
51
C151.1 The main objective of the course is to introduce dynamic loading and the dynamic
performance of the structures to the students.
A,B,D,E,F,G,H,I, PSO3C151.2 Different types of dynamic loading also to be discussed.
C151.3The detailed study on the performance of structures under earthquake loading is also one
of the focus of the course.
CE6702 Prestressed Concrete Structures
52 C152.1 Introduce the need for prestressing as well as the methods, types and advantages of
prestressing to the students.A,B,D,E,F,G,H,J,K, PSO2
C152.2 Students will be introduced to the design of prestressed concrete structures subjected to
flexure and shear.
CE6703 Water Resources And Irrigation Engineering
53
C153.1 The student is exposed to different phases in Water Resources Management and National
Water Policy.A,B,D,E,G,H,I, PSO1
C153.2 Further they will be imparted required knowledge on Reservoir planning, management and
economic analysis including Irrigation and Irrigation management practices.
CE6711 Computer Aided Design And Drafting Laboratory
54 C154.1 Acquire hands on experience in design and preparation of structural drawings for concrete /
steel structures normally encountered in Civil Engineering practice. .A,B,E,G,I, PSO3
CE6712 Design Project
55 C155.1 The objective of this course is to impart and improve the design capability of the student.
This course conceives purely a design problem in any one of the disciplines of Civil
Engineering; e.g., Design of an RC structure, Design of a waste water treatment plant,
Design of a foundation system, Design of traffic intersection etc.
A,B,D,E,F,G,H,I,J,K, PSO1,PSO2
CE6713Estimation And Quantity Surveying
56
C156.1 Provide the student with the ability to estimate the quantities of item of works involved in
buildings, water supply and sanitary works, road works and irrigation works.A,F,G,H,I,J,K,L, PSO3
C156.2 Equip the student with the ability to do rate analysis, valuation of properties and
preparation of reports for estimation of various items.
MG6851 Principles Of Management
57 C157.1 Upon completion of the course, students will be able to have clear understanding of
managerial functions like planning, organizing, staffing, leading & controlling and have
same basic knowledge on international aspect of management
I,J,K,L, PSO2
CE6811 Project Work
58 C158.1 Develop the ability to solve a specific problem right from its identification and literature
review till the successful solution of the same. To train the students in preparing project
reports and to face reviews and viva voce examination.
A,B,D,E,F,G,H,I,J,K, PSO1,PSO2
CE6001 Hydrology
59
C159.1 The students gain the knowledge needed on hydrologic cycle, hydrometeorology and
formation of precipitation.
A,B,D,E,G,H,I, PSO3C159.2 The students are able to apply the various methods of field measurements and empirical
formulae for estimating the various losses of precipitation, stream flow, flood and flood
routing.C159.3 The students will know the basics of groundwater and hydraulics of subsurface flows.
CE6002 Concrete Technology
60 C160.1 Impart knowledge to the students on the properties of materials for concrete by suitable
tests, mix design for concrete and special concretes.A,D,H,I, PSO3
CE6003 Remote Sensing Techniques And GIS
61
C161.1 Introduce the students to the basic concepts and principles of various components of
remote sensing.A,B,D,E,F,G,H, PSO2
C161.2 Provide an exposure to GIS and its practical applications in civil engineering.
CE6005 Construction Planning And Scheduling
62 C162.1 Make the students to learn about planning of construction projects, scheduling procedures
and techniques, cost and quality control projects and use of project information as decision
making tool.
A,E,G,H,I,J,K,L, PSO1
CE6006 Traffic Engineering And Management
63 C163.1 Analyze traffic problems and plan for traffic systems various uses A,B,D,E,F,G,H, PSO2
C163.2 Design Channels, Intersections, signals and parking arrangements
C163.3 Develop Traffic management Systems.
CE6008 Groundwater Engineering
64
C164.1 Introduce the student to the principles of Groundwater governing Equations and
Characteristics of different aquifers.A,B,D,E,G,H,I, PSO1
C164.2 Understand the techniques of development and management of groundwater.
CE6011 Air Pollution Management
65
C165.2 An understanding of the nature and characteristics of air pollutants, noise pollution and
basic concepts of air quality managementA,B,F,H,J,L, PSO1
C165.2 Ability to identify, formulate and solve air and noise pollution problems Ability to design
stacks and particulate air pollution control devices to meet applicable standards.
CE6016 Prefabricated Structures
66 C166.1 Impart knowledge to students on modular construction, industrialised construction and
design of prefabricated elements and construction methods.A,B,D,E,F,G,H,J,K, PSO2
GE6757 Total Quality Management
67 C167.1 Facilitate the understanding of Quality Management principles and process.
Able to apply the tools and techniques of quality management to manufacturing and
services processes.
I,J,K,L, PSO3
CE6021 Repair and Rehabilitation Of Structures
68 C168.1 Make the students to gain the knowledge on quality of concrete, durability aspects, causes
of deterioration, assessment of distressed structures, repairing of structures and demolition
procedures.
A,B,D,E,F,G,H,I, PSO2
MOHAMED SATHAK ENGINEERING COLLEGE
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING – 2013
Vision:
To emerge as a “center for excellence” offering technical education and research opportunities of veryhigh standards to students, develop total personality of the individual, and instill high levels of discipline andstrive to set global standards, making our students technologically superior and ethically strong, who in turnshall contribute for the advancement of society and human kind.
Mission:
To dedicate and commit ourselves to achieve, sustain and foster unmatched excellence in technicaleducation. To this end, we will pursue continuous development of infrastructure and enhance state of artequipment to provide our students a technologically up-to-date and intellectually inspiring environment oflearning, research, creativity, innovation and professional activity and inculcate in ethical and moral values.
Undergraduate2013 Regulation
PROGRAM EDUCATIONAL OBJECTIVES (PEOs):To enable graduates to pursue higher education and research, or have a successful career in
industries associated with Computer Science and Engineering, or as entrepreneurs. To ensurethat graduates will have the ability and attitude to adapt to emerging technological changes.
PO SL.NO PROGRAM OUTCOMES
PO1 Engineering knowledge: Apply the knowledge ofmathematics, science, engineering fundamentalsand an engineering specialization to the solutionof complex engineering problems.
PO2 Problem analysis: Identify, formulate, reviewresearch literature, and analyze complex
engineering problems reaching substantiatedconclusions using first principles of mathematics,natural sciences, and engineering sciences.
PO3 Design/development of solutions: Designsolutions for complex engineering problems anddesign system components or processes that meetthe specified needs with appropriate considerationfor the public health and safety, and the cultural,societal, and environmental considerations.
PO4 Conduct investigations of complex problems: Useresearch-based knowledge and research methodsincluding design of experiments, analysis andinterpretation of data, and synthesis of theinformation to provide valid conclusions.
PO5 Modern tool usage: Create, select, and applyappropriate techniques, resources, and modernengineering and IT tools including prediction andmodeling to complex engineering activities withan understanding of the limitations.
PO6 The engineer and society: Apply reasoninginformed by the contextual knowledge to assesssocietal, health, safety, legal and cultural issuesand the consequent responsibilities relevant to theprofessional engineering practice.
PO7 Environment and sustainability: Understand theimpact of the professional engineering solutions insocietal and environmental contexts, anddemonstrate the knowledge of, and need forsustainable development.
PO8 Ethics: Apply ethical principles and commit toprofessional ethics and responsibilities and normsof the engineering practice.
PO9 Individual and team work: Function effectively asan individual, and as a member or leader indiverse teams, and in multidisciplinary settings.
PO10 Communication: Communicate effectively oncomplex engineering activities with theengineering community and with society at large,such as, being able to comprehend and writeeffective reports and design documentation, make
effective presentations, and give and receive clearinstructions.
PO11 Project management and finance: Demonstrateknowledge and understanding of the engineeringand management principles and apply these toone‘s own work, as a member and leader in ateam, to manage projects and in multidisciplinaryenvironments.
PO12 Life-long learning: Recognize the need for, andhave the preparation and ability to engage inindependent and life-long learning in the broadestcontext of technological change.
Mapping of POs/PSOs to PEOsContribution 1: Reasonable 2: Significant 3: Strong
PSO SL.NO PROGRAM SPECIFIC OUTCOMES(PSOs)
PSO1 To analyze, design and develop computingsolutions by applying foundational concepts ofComputer Science and Engineering.
PSO2 To apply software engineering principles andpractices for developing quality software forscientific and business applications.
PSO3 To adapt to emerging Information andCommunication Technologies (ICT) toinnovate ideas and solutions to existing/novelproblems.
PEOs
POs 1. Graduates will pursuehigher education andresearch, or have asuccessful career inindustries associatedwith ComputerScience andEngineering, or asentrepreneurs.
2. Graduates willhave the abilityand attitude toadapt toemergingtechnologicalchanges.
1. Engineering knowledge: Apply the knowledge ofmathematics, science, engineeringfundamentals, and an engineeringspecialization to the solution of complex engineeringproblems.
3 1
2. Problem analysis: Identify, formulate, reviewresearch literature, and analyze complex engineeringproblems reaching substantiated conclusions usingfirst principles of mathematics, natural
sciences, andengineering sciences.
3 1
3. Design/development of solutions: Design solutionsfor complex engineering problems and design systemcomponents or processes that meet the specifiedneeds with appropriate consideration for the publichealth and safety, and the cultural, societal, andenvironmental considerations.
3 2
4. Conduct investigations of complex problems: Useresearch-based knowledge and research methodsincluding design of experiments, analysis andinterpretation of data, and synthesis of the informationto provide valid conclusions.
3 2
5. Modern tool usage: Create, select, and applyappropriate techniques, resources, and modernengineering and IT tools including prediction andmodeling to complex engineering activities with anunderstanding of the limitations.
2 3
6. The engineer and society: Apply reasoning informedby the contextual knowledge to assess societal,health, safety, legal and cultural issues and
the consequentresponsibilities relevant to the professionalengineering practice.
2 2
PSOs1. Analyze, design and develop computing solutions by applying foundational concepts of
computer science and engineering. 3 1
2. Apply software engineering principles and practices for developing quality software forscientific and business applications. 3 1
3. Adapt to emerging information and communication technologies (ICT) to innovate ideas andsolutions to existing/novel problems. 1 3
7. Environment and sustainability:Understand the impact of the professional engineeringsolutions in societal and environmental contexts, anddemonstrate the knowledge of, and need forsustainable development.
2 1
8. Ethics: Apply ethical principles and commit toprofessional ethics and responsibilities and norms ofthe engineering practice. 3 1
9. Individual and team work: Function effectively as anindividual, and as a member or leader in diverseteams, and in multidisciplinary settings. 3 2
10. Communication: Communicate effectively on complexengineering activities with the engineering communityand with society at large, such as, being able tocomprehend and write effective reports
and designdocumentation, make effective presentations, andgive and receive clear instructions.
3 2
11. Project management and finance:Demonstrate knowledge and understanding of theengineering and management principles and applythese to one’s own work, as a member and leader in ateam, to manage projects and in multidisciplinaryenvironments.
2 2
12. Life-long learning: Recognize the need for, and havethe preparation and ability to engage in independentand life-long learning in the broadest context oftechnological change.
1 3
MAPPING OF COURSE OUTCOMES WITH PROGRAMME OUTCOMES
A broad relation between the Course Outcomes and Programme Outcomes is given in thefollowing table
COURSE OUTCOMES Mapping of course outcome with PO and PSO
HS6151 TECHNICAL ENGLISH – I
• Speak clearly, confidently,comprehensibly, and communicate withone or many listeners using appropriatecommunicative strategies.
• Write cohesively and coherently andflawlessly avoiding grammatical errors,using a wide vocabulary range,organizing their ideas logically on atopic.
• Read different genres of texts adoptingvarious reading strategies.
• Listen/view and comprehend differentspoken discourses/excerpts in differentaccents.
PO8,PO9,PO10,PO12
MA6151 MATHEMATICS – I
This course equips students to havebasic knowledge and understanding in onefields of materials, integral and differentialcalculus.
PO1,PO2,PO3,PO9
PH6151 ENGINEERING PHYSICS – I
The students will have knowledge onthe basics of physics related to properties ofmatter, optics, acoustics etc., and they willapply these fundamental principles to solvepractical problems related to materials usedfor engineering applications
PO1,PO2,PO3
CY6151 ENGINEERINGCHEMISTRY – I
The knowledge gained on polymerchemistry, thermodynamics. spectroscopy,phase rule and nano materials will provide astrong platform to understand the concepts onthese subjects for further learning.
PO1,PO2,PO3
GE6151 COMPUTERPROGRAMMING
• Design C Programs for problems.• Write and execute C programs forsimple applications
PO1,PO2,PO3
GE6152 ENGINEERINGGRAPHICS
• Perform free hand sketchingof basic geometricalconstructions and multipleviews of objects.
• Do orthographic projection of linesand plane surfaces.
• Draw projections and solids anddevelopment of surfaces.
• Prepare isometric and perspectivesections of simple solids.
• Demonstrate computer aideddrafting.
PO1,PO2,PO3,PO5,PO8,PO9,PO10,PO12
GE6161 COMPUTER PRACTICESLABORATORY
• Apply good programming designmethods for program development.• Design and implement C programsfor simple applications.• Develop recursive programs.
PO1,PO2,PO3,PO5,PO8,PO9,PO10,PO12
GE6162 ENGINEERINGPRACTICES LABORATORY
• Ability to fabricate carpentry componentsand pipe connections including plumbingworks.
• Ability to use welding equipments to jointhe structures.
• Ability to fabricate electrical andelectronics circuits.
PO1,PO2,PO3,PO4,PO5,PO6,PO8,PO9,PO10,PO12
GE6163 PHYSICS ANDCHEMISTRY LABORATORY – I
The students will be outfitted withhands-on knowledge in the quantitativechemical analysis of water quality relatedparameters
PO1,PO2,PO3,PO8,PO9,PO10
HS6251 TECHNICAL ENGLISH II
• Speak convincingly, express theiropinions clearly, initiate a discussion,negotiate, argue using appropriatecommunicative strategies.
• Write effectively and persuasivelyand produce different types ofwriting such as narration,description, exposition andargument as well as creative,critical, analytical and evaluativewriting.
• Read different genres of texts,infer implied meanings andcritically analyse and evaluatethem for ideas as well as formethod of presentation.
• Listen/view and comprehenddifferent spoken excerpts criticallyand infer unspoken and impliedmeanings.
PO8,PO9,PO10,PO12
MA6251 MATHEMATICS – II
The subject helps the students todevelop the fundamentals and basicconcepts in vector calculus, ODE, Laplacetransform and complex functions. Studentswill be able to solve problems related toengineering applications by using thesetechniques.
PO1,PO2,PO3,PO9
PH6251 ENGINEERING PHYSICS – II
The students will have the knowledge onphysics of materials and that knowledgewill be used by them in differentengineering and technology applications
PO1,PO2,PO3
CY6251 ENGINEERING CHEMISTRY-II
The knowledge gained on engineeringmaterials, fuels, energy sources and watertreatment techniques will facilitate betterunderstanding of engineering processes andapplications for further learning.
CS6201 DIGITAL PRINCIPLES ANDSYSTEM DESIGN
• Perform arithmetic operations in anynumber system.• Simplify the Boolean expressionusing K-Map and Tabulation techniques.• Use boolean simplificationtechniques to design a combinationalhardware circuit.• Design and Analysis of a givendigital circuit - combinational andsequential.• Design using PLD.
PO1,PO2,PO3
CS6202 PROGRAMMING AND DATASTRUCTURES I
• Use the control structures of Cappropriately for problems.• Implement abstract data types forlinear data structures.• Apply the different linear datastructures to problem solutions.• Critically analyse the variousalgorithms.
PO1,PO2,PO3
GE6262 PHYSICS AND CHEMISTRYLABORATORY – II
The students will have the ability totest materials by using their knowledge ofapplied physics principles in optics andproperties of matter.
CS6211 DIGITAL LABORATORY
• Use boolean simplification techniquesto design a combinational hardwarecircuit.• Design and Implement combinationaland sequential circuits.• Analyze a given digital circuit -combinational and sequential.• Design the different functional units ina digital computer system.• Design and Implement a simple digitalsystem.
PO1.PO2,PO3,PO6,PO8,PO9,PO10,PO12
CS6212 PROGRAMMING AND DATASTRUCTURES LABORATORY I
• Design and implement C programsfor implementing stacks, queues, linkedlists.• Apply good programming designmethods for program development.• Apply the different data structures for
PO1,PO2,PO3,PO8,PO9,PO10,PO12
implementing solutions to practicalproblems.• Develop searching and sortingprograms.
MA6351 TRANSFORMS ANDPARTIAL DIFFERENTIAL EQUATIONS
The understanding of themathematical principles on transformsand partial differential equations wouldprovide them the ability to formulate andsolve some of the physical problems ofengineering.
CS6301 PROGRAMMING ANDDATA STRUCTURES II
• Design problem solutions usingObject Oriented Techniques.
• Apply the concepts of dataabstraction, encapsulation andinheritance for problem solutions.
• Use the control structures of C++appropriately.
• Critically analyse the variousalgorithms.
• Apply the different data structures toproblem solutions.
PO1,PO2,PO3
CS6302 DATABASEMANAGEMENT SYSTEMS
• Design Databases for applications.• Use the Relational model, ERdiagrams.• Apply concurrency control andrecovery mechanisms for practicalproblems.• Design the Query Processor andTransaction Processor.
PO1,PO2,PO3
Apply security concepts to databases
CS6303 COMPUTERARCHITECTURE
• Design arithmetic and logic unit.• Design and anlayse pipelined control
units• Evaluate performance of memory
systems.• Understand parallel processing
architectures.
PO1,PO2,PO3
CS6304 ANALOG AND DIGITALCOMMUNICATION
• Apply analog and digital communicationtechniques.• Use data and pulse communicationtechniques.• Analyze Source and Error controlcoding.
• Utilize multi-user radiocommunication.
GE6351 ENVIRONMENTALSCIENCE AND ENGINEERING
Environmental Pollution or problemscannot be solved by mere laws. Publicparticipation is an important aspect whichserves the environmental Protection. Onewill obtain knowledge on the followingafter completing the course.
• Public awareness of environment at
PO1,PO2,PO3,PO7,PO8,PO9,PO10,PO12
infant stage.• Ignorance and incomplete knowledge
has lead to misconceptions.• Development and improvement in
standard of living has lead to seriousenvironmental disasters.
CS6311 PROGRAMMING ANDDATA STRUCTURELABORATORY II
• Design and implement C++ programsfor manipulating stacks, queues,linked lists, trees, and graphs.
• Apply good programming designmethods for program development.
• Apply the different data structures forimplementing solutions to practicalproblems.
• Develop recursive programs usingtrees and graphs.
PO1,PO2,PO3,PO7,PO8,PO9,PO10,PO12
CS6312 DATABASEMANAGEMENT SYSTEMSLABORATORY
• Design and implement a databaseschema for a given problem-domain
• Populate and query a database• Create and maintain tables using
PL/SQL.• Prepare reports.
PO1,PO2,PO3,PO8,PO9,PO10,PO12
MA6453 PROBABILITY ANDQUEUEING THEORY
• The students will have a fundamentalknowledge of the probabilityconcepts.
• Acquire skills in analyzing queueingmodels.
• It also helps to understand andcharacterize phenomenon which
PO1,PO2,PO3,PO9,PO10,PO12
evolve with respect to time in aprobabilistic manner.
CS6551 COMPUTER NETWORKS
• Identify the components required tobuild different types of networks• Choose the required functionality ateach layer for given application• Identify solution for eachfunctionality at each layer• T race the flow of information fromone node to another node in the network
PO1,PO2,PO3
CS6401 OPERATING SYSTEMS
• Design various Scheduling algorithms.• Apply the principles of concurrency.• Design deadlock, prevention andavoidance algorithms.• Compare and contrast various memorymanagement schemes.• Design and Implement a prototype filesystems.• Perform administrative tasks on LinuxServers.
PO1,PO2,PO3
CS6402 DESIGN AND ANALYSISOF ALGORITHMS
• Design algorithms for variouscomputing problems.• Analyze the time and spacecomplexity of algorithms.• Critically analyze the differentalgorithm design techniques for a givenproblem.• Modify existing algorithms to
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improve efficiency.
EC6504 MICROPROCESSORAND MICROCONTROLLER
• Design and implement programs on8086 microprocessor.• Design I/O circuits.• Design Memory Interfacing circuits.• Design and implement 8051microcontroller based systems.
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CS6403 SOFTWAREENGINEERING
• Identify the key activities in managing asoftware project.
• Compare different process models.• Concepts of requirements engineering
and Analysis Modeling.• Apply systematic procedure for
software design and deployment.• Compare and contrast the various
testing and maintenance.
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CS6411 NETWORKSLABORATORY
• Use simulation tools• Implement the various protocols.• Analyse the performance of theprotocols in different layers.• Analyze various routingalgorithms
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CS6412 MICROPROCESSORAND MICROCONTROLLERLABORATORY
• Write ALP Programmes for fixedand Floating Point and Arithmetic• Interface different I/Os withprocessor• Generate waveforms usingMicroprocessors• Execute Programs in 8051• Explain the difference betweensimulator and Emulator
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CS6413 OPERATING SYSTEMSLABORATORY
• Implement deadlock avoidance, andDetection Algorithms• Compare the performance of variousCPU Scheduling Algorithm• Critically analyze the performance ofthe various page replacement algorithms• Create processes and implement IPC
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MA6566 DISCRETEMATHEMATICS
• Have knowledge of the concepts neededto test the logic of a program.
• Have an understanding in identifyingstructures on many levels.
• Be aware of a class of functions whichtransform a finite set into another finiteset which relates to input and outputfunctions in computer science.
• Be aware of the counting principles.• Be exposed to concepts andproperties of algebraic structuressuch as groups, rings and fields.
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CS6501 INTERNETPROGRAMMING
• Implement Java programs.• Create a basic website using HTML
and Cascading Style Sheets.• Design and implement dynamic web
page with validation using JavaScriptobjects and by applying differentevent handling mechanisms.
• Design rich client presentation usingAJAX.
• Design and implement simple webpage in PHP, and to present data inXML format.
• Design and implement server sideprograms using Servlets and JSP
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CS6502 OBJECT ORIENTEDANALYSIS AND DESIGN
• Design and implement projects usingOO concepts.
• Use the UML analysis and designdiagrams.
• Apply appropriate design patterns.• Create code from design.• Compare and contrast various testing
techniques.
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CS6503 THEORY OFCOMPUTATION
• Design Finite State Machine,Pushdown Automata, and TuringMachine.• Explain the Decidability orUndecidability of various problems
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CS6504 COMPUTER GRAPHICS
• Design two dimensional graphics.• Apply two dimensional transformations.• Design three dimensional graphics.• Apply three dimensional
transformations.• Apply Illumination and color models.• Apply clipping techniques to graphics.• Design animation sequences.
CS6511 CASE TOOLSLABORATORY
• Design Web pages usingHTML/XML and style sheets
• Create user interfaces using Javaframes and applets.
• Create dynamic web pages usingserver side scripting.
• Write Client Server applications.• Use the frameworks JSP Strut,
Hibernate, Spring• Create applications with AJAX
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CS6512 INTERNETPROGRAMMING LABORATORY
• Create 3D graphical scenes using opengraphics library suits• Implement image manipulation andenhancement• Create 2D animations using tools
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CS6513 COMPUTER GRAPHICSLABORATORY
• Create 3D graphical scenes using opengraphics library suits• Implement image manipulation andenhancement• Create 2D animations using tools
CS6601 DISTRIBUTED SYSTEMS
• Discuss trends in Distributed Systems.• Apply network virtualization.• Apply remote method invocation andobjects.
• Design process and resourcemanagement systems.
IT6601 MOBILE COMPUTING
• Explain the basics of mobiletelecommunication system
• Choose the required functionality ateach layer for given application
• Identify solution for eachfunctionality at each layer
• Use simulator tools and design Adhoc networks
• Develop a mobile application.
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CS6660 COMPILER DESIGN
• Design and implement a prototypecompiler.
• Apply the various optimizationtechniques.
• Use the different compiler constructiontools.
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IT6502 DIGITAL SIGNALPROCESSING
• Perform frequency transforms for thesignals.• Design IIR and FIR filters.• Finite word length effects in digitalfilters
CS6659 ARTIFICIALINTELLIGENCE
• Identify problems that are amenableto solution by AI methods.
• Identify appropriate AI methods tosolve a given problem.
• Formalise a given problem in thelanguage/framework of different AImethods.
• Implement basic AI algorithms.• Design and carry out an empirical
evaluation of different algorithmson a problem formalisation, andstate the conclusions that theevaluation supports.
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CS6611 MOBILE APPLICATIONDEVELOPMENT LABORATORY
• Design and Implement variousmobile applications using emulators.• Deploy applications to hand-helddevices
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CS6612 COMPILERLABORATORY
• Implement the different Phases ofcompiler using tools• Analyze the control flow and data flowof a typical program• Optimize a given program• Generate an assembly languageprogram equivalent to a source language
program
GE6674 COMMUNICATION ANDSOFT SKILLS- LABORATORYBASED
• Take international examination such asIELTS and TOEFL• Make presentations and Participate inGroup Discussions.• Successfully answer questions ininterviews.
CS6701 CRYPTOGRAPHY ANDNETWORK SECURITY
• Compare various CryptographicTechniques
• Design Secure applications injectsecure coding in the developed applications
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CS6702 GRAPH THEORY ANDAPPLICATIONS
• Write precise and accuratemathematical definitions of objects ingraph theory.
• Use mathematical definitions toidentify and construct examples and todistinguish examples from non-examples.
• Validate and critically assess amathematical proof.
• Use a combination of theoreticalknowledge and independentmathematical thinking in creativeinvestigation of questions in graphtheory.
Reason from definitions to constructmathematical proofs.
CS6703 GRID AND CLOUDCOMPUTING
• Apply grid computing techniques tosolve large scale scientific problems.• Apply the concept of virtualization.• Use the grid and cloud tool kits.• Apply the security models in the gridand the cloud environment.
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CS6704 RESOURCEMANAGEMENT TECHNIQUES
• Solve optimization problems usingsimplex method.• Apply integer programming and linearprogramming to solve real-life applications.• Use PERT and CPM for problems inproject management
CS6711 SECURITYLABORATORY
• Implement the cipher techniques• Develop the various security algorithms• Use different open source tools fornetwork security and analysis
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CS6712 GRID AND CLOUDCOMPUTING LABORATORY
• Use the grid and cloud tool kits.• Design and implement applications
on the Grid.• Design and Implement applications
on the Cloud.
CS6801 MULTI-COREARCHITECTURES ANDPROGRAMMING
• Program Parallel Processors.• Develop programs using OpenMP and
MPI.• Compare and contrast programming
for serial processors and programmingfor parallel processors.
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IT6702 DATA WAREHOUSING ANDDATA MINING (Elective VI)
• Apply data mining techniques andmethods to large data sets.• Use data mining tools• Compare and contrast the variousclassifiers.
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IT6801 Service OrientedArchitecture (Elective VII)
• Build applications based on XML.• Develop web services using technology
elements.• Build SOA-based applications for intra-
enterprise and inter-enterpriseapplications.
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CS6007 Information Retrieval(Elective VII)
• Apply information retrieval models.• Design Web Search Engine.• Use Link Analysis.• Use Hadoop and Map Reduce.
Apply document text miningtechniques.
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IT6011 Knowledge Management(Elective VIII)
• Use the knowledge managementtools.• Develop knowledge managementApplications.• Design and develop enterpriseapplications.
MG6088 Software ProjectManagement
(ElectiveVIII)
At the end of the course thestudents will be able to practiceProject Management principles whiledeveloping a software.
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MOHAMED SATHAK ENGINEERINGCOLLEGE,KILAKARAI-623806
B.E. ELECTRICAL AND ELECTRONICS ENGINEERING
VISIONProvide quality education, train students in contemporary technologies , develop
the total personality of the individual and instill high level of discipline and making our
students technologically sound, ethically strong and accomplished graduates, who in
turn shall contribute for the betterment of the society and humankind.
MISSIONWe dedicate and commit to maintain a supportive and distinct environment that
encourages our students and faculty to achieve best of their abilities. To update
knowledge with a solid foundation in Electrical Engineering that prepares them for life-
long careers and professional growth in fields of their choice. To inculcate social and
ethical values.
B.E. ELECTRICAL AND ELECTRONICS ENGINEERING
R – 2013PROGRAM EDUCATIONAL OBJECTIVES :1. To prepare the students have successful career in industry and motivate for higher education.2. To provide strong foundation in basic science and mathematics necessary to formulate, solveand analyze electrical and electronics problems3. To provide strong foundation in circuit theory, field theory, control theory and signal processingconcepts.4. To provide good knowledge of Electrical power apparatus and their applications in powersystems5. To provide knowledge on basic electronics to power electronics and their applications in powerengineering6. To provide an opportunity to work in inter disciplinary groups7. To promote student awareness for life long learning and inculcate professional ethics8. To provide necessary foundation on computational platforms and software applicationsrelated to the respective field of engineering.
PROGRAM OUTCOMES :
a) Ability to understand and apply differential equations, integrals, matrix theory, probability theory andLaplace, Fourier and Z transformations for engineering problemsb) Ability to understand and apply basic science, circuit theory, Electro-magnetic field theory controltheory and apply them to electrical engineering problems.c) Ability to model and analyze electrical apparatus and their application to power systemd) Ability to understand and analyze power system operation, stability, control and protection.e) Ability to handle the engineering aspects of electrical energy generation and utilization.f) Ability to understand and analyse, linear and digital electronic circuits.g) Ability to review, prepare and present technological developmentsh) Ability to form a group and develop or solve engineering hardware and problemsi) To understand and apply computing platform and software for engineering problems.j) To understand ethical issues, environmental impact and acquire management skills.
ProgramEducational
Objective
Program Outcomea b c d e f G h i J
1 x x x X x X2 x3 x4 x5 x6 X7 X X8 x x
COSl.No
COURSE OUTCOMES
Mapping ofcourseoutcomewith PO
HS6151 -COMMUNICATIVE ENGLISH
Apply the collaborative and social aspects of research and writingprocesses.Comprehend that research and writing is a series of tasks,including accessing, retrieving, evaluating, analyzing and synthesizingappropriate data and information from sources that vary in content,format, structure and scope. Use appropriate technologies to organize,present and communicate information to address a range of audiences,purposes and genres. Explain the relationships among language,knowledge and power including social, cultural, historical andeconomic issues related to information, writing and technology.Demonstrate the role of a variety of technologies/ media in accessing,retrieving, managing and communicating information.
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MA6151 MATHEMATICS – IFind the eigen values and eigen vectors to diagonalise and reduce amatrix to quadratic formCheck the converges, diverges of infinite series.Obtain the evaluate and envelopes of a given curves by means of radiusand centre of curvature of curvatureCalculate the maxima and minima value functions of two variablesFind the area of plain curves and volume of solid using double andtriple integrals
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PH6151 - ENGINEERING PHYSICS
Classify the Bravais lattices and different types of crystal structures andgrowth technique.Demonstrate the properties of elasticity and heat transfer throughobjects.Explain black body radiation, properties of matter waves andSchrodinger wave equations.Illustrate the acoustic requirements, production and application ofultrasonics.Examine the characteristics of laser and optical fiber.
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CY6151 ENGINEERING CHEMISTRY 1
Classify the polymers and their utility in the industries and describe thetechniques of polymerization & properties of polymers.Relate various thermodynamic functions such as enthalpy, entropy, freeenergy and their importance and equilibrium constant and itssignificance.Characterize the photophysical processes such as fluorescence andphosphorescence and various components of UV & IRspectrophotometer.Analyze the phase transitions of one component and two componentsystems and the types of alloys and their application in industriesDescribe the synthesis, characteristics and the applications of nanomaterials.
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GE6151 COMPUTER PROGRAMMING
Explain the basic organization of computers, the number systems andwrite the pseudo code for algorithms and flow chart.Develop ‘C’ programming fundamentals, looping statements and solveproblems.Design ‘C’ programs for arrays and strings.Use functions with pass by value and reference, pointers in programs.Develop codings in ‘C’ for structures and unions with storage classesand preprocessor.
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GE6152 ENGINEERING GRAPHICS
Construct the conic sections and special curves and outline theirpractical applications and sketch the orthographic views from pictorialviews and modelsApply the principles of orthographic projections of points in allquadrants, lines and planes in first quadrant.Draw the projections of simple solids like prisms, pyramids, cylinderand cone and obtain the traces of plane figuresDesign the sectional views of solids like cube, prisms, pyramids,cylinders & cones and Development of its lateral surfacesApply the principles of isometric projection and perspective projectionof simple solids and truncated prisms, pyramids, cone and cylinders
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GE6161 COMPUTER PRACTICES LABORATORY
Prepare data using MS-word & Excel to visualize graphs, charts in MS-ExcelOutline the given problem using flowchart and to program using Switchcase & Control structures.Develop the code using decision making & looping statements.Apply passing parameters using Arrays & FunctionsUse structure and Union for a given database and to bring out theimportance of Unions over structure.
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GE6162 ENGINEERING PRACTICES LABORATORYDemonstrate wiring for a simple residential house, identify the ratingsof various appliances like Fluorescent tube, incandescent lamp, etcCalculate the different Electrical quantities, measure the energyconsumption using single phase energy meter.Measure the resistance to earth of an electrical equipment, analyze ACsignal parameters using CRO.Verify the Truth tables of Logic gates AND, OR, EOR and NOT,generate clock signal using suitable gates.Develop soldering in a PCB, measure ripple factor of Half WaveRectifier and Full Wave Rectifier.
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GE6163 PHYSICS AND CHEMISTRY LABORATORY – IEvaluate the wavelength of spectral lines using spectrometer, thewavelength of laser, particle size, acceptance angle of an optical fiberusing semiconductor diode laser and the thickness of a thin wirethrough interference fringes usingAir wedge apparatus.Appraise the velocity of sound and compressibility of the liquid usingultrasonicinterferometer and thermal conductivity for bad conductors using Lee’sdisc apparatus.Determine the DO content in water sample by winkler’s method andmolecular weight of polymer by Ostwald viscometer.Find the strength of an acid using pH meter and conductometer.Estimate the amount of weak and strong acids in a mixture by
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conductometer.
HS6251 TECHNICAL ENGLISH II
Speak convincingly, express their opinions clearly, initiate a discussion,negotiate, argue using appropriate communicative strategies.Write effectively and persuasively and produce different types ofwriting such as narration, description, exposition and argument as wellas creative, critical, analytical and evaluative writingRead different genres of texts, infer implied meanings and criticallyanalyse and evaluate them for ideas as well as for method ofpresentation.Listen/view and comprehend different spoken excerpts critically andinfer unspoken and implied meanings
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MA6251 MATHEMATICS – IIFind solenoidal, irrotational vectors and explain the concepts ofGreen’s, Gauss divergence , Stokes theorem to evaluate, single doubleand triple integralsObtain the P.I. of Cauchy and Legendre Equation , explain the methodof variation of parameters and solve simultaneous linear equationsevaluate Laplace Transforms of periodic functions and solve the ODEusing Inverse Laplace TransformRecall the properties of analytic functions for verifying C-R equationsand determine Bilinear TransformationExpand functions of two variables as Taylor’s and Laurent’s series andevaluateContour integrals using Cauchy’s Integral formula.
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PH6251 ENGINEERING PHYSICS – IIIllustrate classical and quantum free electron theory and calculatecarrier concentration in metals.Describe the carrier concentration in semi conductors and identify thep-type and n-type semi conductor using hall effect.Classify the different types of magnetic and super conducting materials.Explain the dielectrics, types of polarization, losses and breakdown.Discuss the properties, preparation and applications of metallic alloys,SMA,nano materials, NLO, Bio-materials.
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CY6251 ENGINEERING CHEMISTRY-II
Explain the problems of using hard water in boilers and the methods oftreatment of water for boiler use.Design the electrochemical cells and to identify the types of corrosionand the methods of preventingIllustrate the methods of harnessing energy from non-conventionalenergy sources.Classify various engineering materials and their importanceRelate the significance of solid, liquid and gaseous fuels and tocalculate the calorific values of fuels and the requirement of air forcombustion in furnaces.
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GE6251 BASIC CIVIL AND MECHANICAL ENGINEERINGExplain the working principles of various power plants and differentiatethe pumps and turbines.State the functions of IC engine and classify the various types of boilersApply the principles of vapour absorption and compression systems andExplain the Operation of air conditioner.Apply the principles of surveying and use various measurements forsurveying and study about various engineering materials and levelinginstruments.Classify the types of bridges, foundation, floorings, roofs, plasters andR.C.C structural members and state the purpose of dam.
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EE6201 CIRCUIT THEORYApply Kirchhoff's current and voltage law to simple circuits and Solvecomplex circuits using Mesh & Nodal Methods.Apply Network theorems to solve simple and complex linear circuits.Solve the Series and Parallel resonance circuit, analyze the performanceof single & double tuned circuits.Develop the Transient response of RLC circuits usingLaplaceTransform,explain the characteristics of two port networks.Explain three phase balanced and unbalanced star, delta network.
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GE6262 PHYSICS AND CHEMISTRY LABORATORY – IIAppraise the Young’s modulus of the beam by uniform and nonuniform bending method, the moment of inertia and Rigidity Modulusfor thin wire using Torsion Pendulum.Use Poiseuille’s method for determining the coefficient of viscosity ofthe liquid.Evaluate the refractive index of spectral lines for determining thedispersive power of a prism.Determine the type, amount of alkalinity , hardness in a given watersample and evaluate the amount of copper using EDTA methodExamine the potentiometric redox titration and Conductometricprecipitation titration.
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GE6263-COMPUTER PROGRAMMING LABORATORYExplain UNIX Operating system and usage of file system.Apply Shell Commands for a given task using filter and pipecommands.Develop and implement the Shell scripts in VI editor.Develop C Program on Unix environment.Apply File handling in C to copy, merge and display the given file.
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EE 6211 – ELECTRIC CIRCUITS LABORATORYApply KCL, KVL and Network Theorems to Simple and Complexcircuits.Demonstrate the working of CRO and Determine the Time Constant ofRC circuit.Determine frequency response of RLC circuits and Use MATLAB tosimulate series, parallel resonant circuit, low pass, high pass filter.Use MATLAB to simulate three phase balanced, unbalanced circuit andMeasure power in three phase circuits by two wattmeter methods.Determine h-parameters of Two port networks and Calibrate singlephase energy meter
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MA6351 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONSSolve First, Second order homogeneous and non homogeneous partialdifferential equationsFind the Fourier series of a given function satisfying Dirichlet’scondition.Apply Fourier series to solve one dimensional way, one and twodimensional heat equations.Determine Fourier transform for a given function and use them toevaluate certain definite IntegralsDetermine z transforms of standard functions and use them to solvedifference equations
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EE6301-DIGITAL LOGIC CIRCUITS
List the various types of number system and compare the digital logicfamilies.Apply K –Map for simplification and implementation of combinationallogic circuit.Explain the synchronous Sequential logic circuits and draw the blockdiagram of Shift Registers.Design asynchronous sequential circuits and describe the operation ofProgrammable Logic Devices.Develop the VHDL coding for combinational and Sequential logiccircuits.
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EE6302-ELECTROMAGNETIC THEORY
Explain the different coordinate systems, and apply Gauss’s lawInterpret the concepts of Electrostatic fields and apply boundaryconditions on Electrostatic fieldDevelop concepts of Magnetostatic fields and apply boundaryconditions.Analyze the Maxwell's equations for electromagnetic fieldsDerive Electromagnetic wave equation and apply the Poyntingexpression.
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GE6351 – ENVIRONMENTAL SCIENCE AND ENGINEERING
Define Environment, ecosystem and biodiversity, classify types ofecosystems and outline the impacts to biodiversity.Define pollution, classify its types, analyze the causes and suggestcontrol measures for pollution.Outline various natural resources; explain causes and impacts ofdestruction of resources.List various social issues related to land, water and energy; summarizethe concerning government acts and rules to overcome these problems.Interpret population explosion and variation among nations, show theimpacts of over population and illustrate the methods to mitigate thesame.
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EC6202 - ELECTRONIC DEVICES AND CIRCUITS
Draw the characteristics of various types of Diodes, design half and fullwave Rectifiers.Compare the different configurations of BJT, draw its characteristics.Calculate the FET parameters, draw its frequency responsecharacteristics.Design Amplifier circuits and draw frequency response characteristics.Develop the parameters of feedback amplifier circuit, describe differenttypes of oscillator circuits.
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EE 6303 LINEAR INTEGRATED CIRCUITS & APPLICATIONS
Explain the procedure for the fabrication of ICSummarize the DC & AC characteristics of Operational amplifier.Discuss the applications of Operational amplifierDescribe the internal functional blocks of special ICs like Timer andPLL.Classify types of voltage regulators and describe the special ICs.
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EC6361 - ELECTRONICS LABORATORY
Find the breakdown voltage of Diode, draw the V-I characteristics ofBJT.Draw the equivalent circuit of JFET and develop the saw toothwaveform generation using UJTDesign the Common Emitter amplifier and draw the V-I characteristicsof photo diode & photo transistorCompare the theoretical and practical frequency value of oscillators andmeasure the ripple factor of rectifierShow the frequency response of filters, design the multivibrators
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EE 6311 – LINEAR AND DIGITAL INTEGRATED CIRCUITS LABORATORY
Apply Boolean functions to implement adder, subtractor circuits andconvert Excess 3 to BCD, Binary to Gray code and vice versaTest Parity generator and checker and Design encoder decoder circuitsDemonstrate 4 bit synchronous, asynchronous counter and Shiftregisters.Illustrate multiplexer demultiplexer circuit and apply 555 timer inMonostable and Astable operation.Apply OP-AMP to construct Adder, comparator, differentiator,Integrator and describe VCO, PLL characteristics.
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MA6459-NUMERICAL METHODSDetermine the solution of algebraic and transcentendal system of linearequationsTo interpolate the values of unknown functions using Newton’sFormulaEstimate the numerical values of the derivatives and integrals ofunknown functionSolve first and second order initial value problemSolve Numerically boundary value problem
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EE6401-ELECTRICAL MACHINES-I
Describe the coupled coil calculate the self and mutually induced emfAnalyze the operation of transformer in different loading conditionExplain the concept of field energy and co-energy in single andmultiple excited systemsDemonstrate the construction of D.C machines and operation of DCGeneratorDerive the performance equation of D.C motor under various loadcondition and analyze the braking system
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CS6456-Object Oriented ProgrammingExplain the key attributes of C++ like native types and statements andimplement ADT.Develop object oriented programs using polymorphism and dataabstraction concepts.Design templates, construct generics and to handle exceptions.Develop the concept of java in creating classes, objects using arrays andcontrol statements.Create packages, handle exceptions and develop multi-threadedprograms.
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EE 6402 – Transmission and Distribution
Identify the basic elements of the electric power system,generation,transmission, distribution and describe the role played byeach element.Compute the losses, efficiency and parameters of the Transmission line.Analyze the Performance of Transmission Lines.Solve the voltage distribution in insulator strings, cables and methods toimprove the same.Design overhead lines both Mechanical and electrical aspects using Sagcalculation.
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EE6403-Discrete Time Systems and Signal Processing
Classify the different types of signals and systems and Explain thesampling process of continuous time signal.Apply z-transform and inverse Z transform and analyze discrete timesystems.Apply Radix-2 Decimation in Time (DIT) and Decimation inFrequency (DIF)FFT Algorithm to Compute Discrete FourierTransform.Explain different types of Infinite Impulse Response (IIR) filters andFinite Impulse Response (FIR) filters.Explain various architectures of Digital signal processors.
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EE6404– Measurements and Instrumentation
Describe the basic functional block elements in Different measuringInstruments and the errors in the measurement system.Select the suitable instrument for measuring different electrical andmagnetic parameters.Design a suitable Bridge circuit to determine the values of variousresistor,inductor and capacitor.Explain the construction and working principle of various types ofstorage and display devices and compare them.Compare the various types of transducers and explain the function ofdifferent blocks involved in data acquisition systems.
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CS 6461- Object Oriented programming Laboratory
Design C++ programs using functions, classes with objects, memberfunctions and constructors.Develop operator and function overloading and run time polymorphismusing C++.Develop file handling techniques in C++ for sequential and randomaccess also use Java code for strings.Construct packages and interfaces in Java.Create threads in Java and handle predefined and user definedexceptions.Analyze various types of feedback amplifiers
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EE6411-Electrical Machines Laboratory-I
Analyze the characteristics of DC shunt generator DC compoundgenerator and calculate critical resistance and critical speedExamine load characteristics of DC shunt, series and compound motorand identify its maximum efficiency operating pointPredict the efficiency of DC shunt machine in different methodsExplain the load characteristics of single phase and three phasetransformer ,separate the different losses and to find the efficiencyPredetermine the equivalent circuit parameters of single phasetransformer in two different methods and compare the results
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EE 6501 – Power System AnalysisExplain the operation of various power system components, Draw theper unit diagram and form the Y-bus matrix for the power system.Develop the power flow equation for power system problems andDetermine the line flows using G-S, N-R and F-D methodIllustrate the types of faults and their effects, Calculate the faultcurrents for symmetrical fault condition.Draw the sequence network for L-G, L-L and L-L-G fault of the powersystem and Determine the fault current incase of L-G, L-L and D-L-GfaultExplain the concept of power system stability, Analyze the stability ofsingle machine infinite bus system.Perform experiments to study the load characteristics of DC motors /generators.
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EE 6502 – Microprocessors and Microcontrollers
Describe the basic Architecture of 8085 Microprocessor and working ofall blocks of the processor, IO and memory interfacings with necessarytiming diagrams.Classify the instructions with the help of Addressing modes of 8085with necessary programs.Explain the basic Architecture of 8051 Microcontroller with working ofvarious blocks of the controller like Interrupts, Timer, IO ports etc. withnecessary timing diagram and compare the programming concepts with8085.Analyze the architecture of various Interfacing Devices like 8255 PPI,8259 PIC, 8251 USART, 8279, 8253, ADC and DAC andProgramming of all the Interfacing IC’s.Apply the knowledge of programming concepts of 8051Microcontroller for various applications like keyboard display interface,servo motor etc
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ME 6701 – Power Plant EngineeringDraw the layout of modern coal power plant and list the variouscomponents used in thermal power plant.Identify the components of diesel and gas turbine power plants andconstruct the integrated gasifier based combined cycle systems.Describe the layout of subsystems of various nuclear power plants andexpress safety measures for nuclear power plants.Distinguish different hydroelectric power plants and construct variousrenewable energy power plants such as wind, tidal, PV, solar, thermal,geo thermal, biogas and fuel cell.Calculate the per unit cost of electrical energy based on Power tariff,load factor, demand factor, diversity factor and plant safety factor.
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EE6503 - Power ElectronicsExplain the significance of switching devices and its application topower converters and demonstrate the triggering circuit and snubbercircuits.Compare the operation of two, three Pulse Converters and draw outputwaveforms with and without source and load inductance.Classify the operation of Choppers and outline the application ofSMPS.Analyze the operation of single phase and three phase Inverters withand without PWM techniques.Illustrate the operation of AC voltage controller and cycloconverter andits appllications
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EE6504-Electrical Machines-II
Draw the constructional details and explain the performance of salientand non –salient type synchronous generators.Draw and explain the Principle of operation and performance ofsynchronous motor.Draw and describe the construction, principle of operation andperformance of induction machines.Describe the starting and speed control of three-phase induction motors.Explain the construction, principle of operation and performance ofsingle phase induction motors and special machines.
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IC6501- Control systems
Determine the characteristics of P, PI and PID controllersexperimentally and analyze the stability of the control system by (i)Bode plot (ii) Root Locus Plot and (iii) Nyquist plot using MATLAB.Compute the transfer function of a Field controlled DC motorexperimentally and Design the Lag, Lead and Lag-Lead Compensatorsfor the given specifications and hook up it using RC networks.Draw the transient response of Position Control system experimentally,Determine the Characteristics of Synchro-Transmitter- Receiver andUse the MATLAB forthe Simulation of Control Systems.Calculate the unknown Capacitance, Inductance and Resistance usingAC and DCBridges experimentally and Analyze the Dynamics ofSensors/Transducers (a) Temperature (b) Pressure (c) Displacement (d)Optical (e) Strain and (f) Flow.Measure the Power and Energy experimentally; Analyze the SignalConditioningunits (a) Instrumentation Amplifier (b) ADC and DACs and Use theMATLAB forProcess Simulation.
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GE6563- Communication Skills – Laboratory
Apply appropriate communication skills across settings, purposes andaudiences.Demonstrate knowledge of communication theory and applications.Practice critical thinking to develop innovative and well-foundedperspectives related to the students emphasis. Build and maintainhealthy and effective relationships.Use technology to communicate effectively in various settings andcontexts.Demonstrate appropriate and professional ethical behavior.
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EE6512-Electrical Machines Laboratory-II
Determine the voltage regulation of three phase alternator in differentmethods and compare the resultsDetermine the voltage regulation of salient pole synchronous machineand find negative &zero sequence componentsExplain the V and inverted V characteristics of three phase synchronousmachine at different load conditionDetermine and pre determine performance characteristics of three phaseinduction motorDetermine and pre determine performance characteristics of singlephase induction motor
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EC6651-Communication Engineering
Explain the operation of Amplitude Modulation , draw the frequencyspectrum and vector representation of AMCompare the different methods of QPSK, BFSK and GMSKAnalyze how information is transmitted to receiver using the HuffmancodingDiscuss about the various types of multiple access techniquesDistinguish between INTELSAT and INSAT
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EE6601– Solid State Drives
Classify the various types of drives and load torque characteristics andApply the multi quadrant dynamics in hoist load system.Analyze the operation of steady state analysis of single phase and threephase fully controlled converter and Chopper fed separately excited dcmotor drives and discuss the various control strategies of converter.Explain the operation and characteristics of various methods of solidstate speed control of induction motor.Describe the operation of various modes of V/f control of synchronousmotor drivesand different types of permanent magnet synchronous motor drives.Design a current and speed controller and develop the transfer functionfor DCmotor, load and converter, closed loop control with current and speedfeedback.
PO c, PO f,PO g
EE 6602 – Embedded Systems
Analyze the basic build process of embedded systems, structural unitsin embedded processor and selection of processor and memory devicesdepending upon theapplications.Classify the types of I/O device ports and buses and different interfacesfor data transfer.Model the Embedded Product Development Life Cycle (EDLC) byusing different techniques like state machine model, sequential programmodel and concurrent modelAnalyze the basic concept of Real Time Operating Systems and plan toscheduling of different task and compare the features of different typesof Real Time Operating SystemsApply the knowledge of programming concepts of Embedded Systemsfor various applications like Washing Machine automotive and SmartCard System applications
PO h, PO i
EE 6603 – Power System Operation and Control
Analyze the various load characteristics with load curve and loadduration curve.Describe modeling of power-frequency dynamics and design power-frequency controllerExplain the modeling of reactive power-voltage interaction and thecontrol actionsSolve economic dispatch problems and unit commitment problems inpower systemsExplain the need of computer controls to energy management usingSCADA
PO d, PO h,PO i
EE 6604 - Design of Electrical Machines
Compare Electrical Engineering materials; determine heat dissipationdue to Conduction, convection and radiation.Calculate mmf for slots and teeths, apparent flux density, maindimensions and winding details of DC machines.Design core, yoke, winding and cooling system of transformers.Develop output equation of AC machines, design stator and rotor ofinduction machines.Design stator and rotor of synchronous machines analyze their thermalbehavior,design field systems for turbo alternators.
PO c, PO h,PO i
EE6002-Power System Transients
Explain the concept of transients and Compute the solution of transientcurrent equation for RL and RLC system.Illustrate the importance of switching transients, Explain the concept ofresistance switching, load switching and capacitance switching.Explain the concept of lightning mechanism, Describe the interactionbetween lightning and power systemApply the concept of reflection and refraction, Draw the Bewley Latticediagram for different systems.Analyze the concept of short line (or) Kilometric fault and justify theEMTP for transient computations
PO d, PO h,PO i
EE6611-Power Electronics and Drives Laboratory
Draw the VI characteristics of SCR and generate the Gate Pulse usingR, RC and UJT.Plot the characteristics of MOSFET and IGBTSimulate a single phase AC to DC half and fully controlled converter.Draw the output response of step up and step down MOSFET basedchopper and simulate a single phase IGBT based PWM inverter.Plot the output response of AC voltage controller and simulate thePower Electronic Circuits. PO f, PO h,
EE 6612 – Microprocessors and Microcontrollers Laboratory
Predict the smallest/ largest number from a given array and to Performvarious mathematical operations using 8085 processorConvert the given analog input to digital value and to control the trafficsignals using 8085 programmingDevelop coding to display the given word using keyboard and displaycontroller and for serial communicationManipulate the basic operations involving jumps and loops using8051Microcontroller and to interface stepper motor and other devicesDesign circuits for implementing real time applications
PO g, PO h
EE 6613 – Presentation Skills and Technical SeminarPresent seminar in the field of electrical and electronics engineeringsubjects studied.Solve objective type questions in the field of electrical and electronicsengineering.Communicate effectively, the subjects learned in the form of seminarpresentation.Communicate effectively, the modern trends in the field of electrical anelectronics engineering.
PO g
Answer effectively during technical interviews.
EE6701- High Voltage Engineering
Identify the causes of over voltage and its effects in power system.Classify the breakdown Mechanisms in Solid, Liquid, gases andComposite dielectricsDesign different type of Generating circuit for high voltage D.C andhigh voltage A.CMeasure A.C and D.C high voltage and current using appropriatemethodTest the transformer ,insulator , circuit breakers, surge diverters andcables also discuss the insulation coordination
PO c, PO d
EE6702- Protection and SwitchgearSummarize the causes and effects of faults in power system and explainthe necessity of protection in power system.Describe the operation of electromagnetic relays and draw theircharacteristic curves.List out the various faults that can occur on alternator, transformer,busbar and transmission line and select the suitable protection schemes.Synthesize the static relays using comparators and explain numericalrelays.Derive the expression for RRRV, critical resistance value and comparethe various types of circuit breakers
PO d, PO i
.
EE6703-Special Electrical Machines
Explain the necessity to improve the saliency of synchronous reluctancemotor and its characteristicsCompare the various methods of excitation of different types of steppermotor and its driver circuitsDescribe the operation of switched reluctance motor with and withoutsensorsExplain the electronic commutation of permanent magnet brushlessD.C. motors and develop the torque equation.Develop the expression for emf and torque of permanent magnetsynchronous motors and discuss power controller for permanent magnetsynchronous motors.
PO c, PO h
MG6851-Principles of Management
Describe the basic of management and its types, skills, managementroles, types of business organizations and current trends in business.Explain the nature and purpose of planning , types, objective ofplanning and decision processCompare the different organization structures, Authorities andresponsibilities,Human resource management and training anddevelopment.Estimate the individual and group behavior, motivation, jobsatisfaction, types and theories of leadership, communication and IT.Apply the knowledge using the various System and process ofcontrolling,budgetary and non-budgetary control techniques, use ofcomputers and IT in Managementcontrol, reporting.
PO j
EI 6704 – Biomedical Instrumentation
Identify the functions of human nervous system and describe the basiccomponents of biomedical system.Illustrate the measurement of non-electrical parameters in human bodysystem.Apply different electrodes and amplifiers in physiologicalmeasurements (EEG,ECG, EMG etc.)Explain the basic principles of imaging techniques and patientmonitoring system.Describe the functions of life assisting and therapeutic equipments
PO f, PO g,PO h
EE6008 – Micro Controller Based System Design
Describe the basic architecture of PIC16cxx and apply the instructionset forsimple operations.Explain about the PIC micro controllers interrupts and write theinterrupt programsApply the program to interface I/O devices with controller like LCD,Keyboard,and Sensors etc.,Develop simple applications using ARM assembly language programsAnalyze ARM Organization and ARM Coprocessor interface
PO f, PO h,PO i
EE 6711 – Power System Simulation Laboratory
Determine the bus impedance and admittance matrices using C andMATLABApply numerical methods for solving load flow problems and verifyusing C and MATLABAnalyze various faults occurring in power system and simulate thefaults using PSCAD.Analyze small signal stability of Single Machine Infinite Bus (SMIB)system and draw the swing curve using AUPOWER Lab andMATLAB.Generate the coding for economic dispatch problems and loadfrequency dynamics problems using MATLAB.
PO h,PO i
EE6712 –ComprehensionSolve objective type questions in the field of electrical and electronicsengineeringReview, prepare and present technological developmentsAnalyze the modern trends in the field of electrical and electronicsengineering.Answer effectively during technical interviews.
PO g,
EE6801-Electric Energy Generation, Utilization and Conservation
Evaluate tractive effort for the propulsion of train, name the tractionmotors, list the traction motor control, track equipment and collectiongear.Categorize different light sources and design various illuminationsystems for the indoor lighting schemes, factory lighting, halls, outdoorlighting schemes, flood lighting, street lighting.Compare the different methods of electric heating and types of electricwelding.Estimate average solar radiation and illustrate the physical principles ofthe conversion of solar radiation into heat.Analyze aerodynamic forces acting on the blade and draw basiccomponents of aWECS.
PO e,
EE 6009 – Power Electronics for Renewable Energy Systems
Discuss and analyze the various types of renewable energy sourcesAnalyze the performance of IG, PMSG, SCIG and DFIGDesign different power converters namely AC to DC, DC to DC andAC to AC converters for renewable energy systems.Analyze various operating modes of wind electrical generators andsolar energy systems.Develop maximum power point tracking algorithms
PO c,PO f
GE6757-Total Quality Management
Describe the basic of Basic concepts of TQM and its need ,Contributions of Deming, Juran and Crosby , Customer focus, Costs ofquality.Explain the Leadership ,Quality Councils , Employee involvement,Teamwork,Quality circles , Performance appraisal , PDCA cycle, 5S,Kaizen, Supplier partnership.Compare the different tools of quality, New management tools , Sixsigma,Bench marking.Estimate the TQM using Control Charts, Taguchi quality loss function, TPM -Concepts, improvement needs and Performance measures.Apply the knowledge using the various System using ISO 9000 - ISO9001-2008 , Elements, Documentation, Quality Auditing - QS 9000 -ISO 14000 –Concepts etc.
PO j
EE6811 – Project work
Apply the fundamentals of mathematics, science and engineeringknowledge to identify , formulate , design and investigate complexengineering problems of electrical and electronics engineering andallied applications .Apply appropriate techniques and modern engineering hardware andsoftware tools in electrical and electronics engineering and alliedapplications.Apply reasoning informed by the contextual knowledge to assesssocietal ,health, safety, legal and cultural issues with societal andenvironmental context ,applying ethical principles in the field ofelectrical and electronics engineeringand allied applications.Function effectively as an individual and as a member or leader indiverse teams in multidisciplinary settings and make effectivepresentation, and communicate effectively.Demonstrate the understanding of the engineering and managementprinciples in multidisciplinary environments to engage in lifelonglearning in the broadest context of technological change.
PO b,PO c,PO d, PO e,PO f,PO g, PO h,PO i
MOHAMED SATHAK ENGINEERING COLLEGE,KILAKARAI-623806B.E. ELECTRONICS AND COMMUNICATION ENGINEERING
Vision:
To emerge as a “center for excellence” offering technical education and research opportunities of veryhigh standards to students, develop total personality of the individual, and instill high levels of disciplineand strive to set global standards, making our students technologically superior and ethically strong, whoin turn shall contribute for the advancement of society and human kind.
Mission:
To dedicate and commit ourselves to achieve, sustain and foster unmatched excellence in technicaleducation. To this end, we will pursue continuous development of infrastructure and enhance state of artequipment to provide our students a technologically up-to-date and intellectually inspiring environment oflearning, research, creativity, innovation and professional activity and inculculate in ethical and moralvalues.
POS.NO
PROGRAM OUTCOMES
PO 1 Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and anengineering specialization to the solution of complex engineering problems
PO 2 Problem analysis: Identify, formulate, review research literature, and analyze complex engineeringproblems reaching substantiated conclusions using first principles of mathematics, natural sciences, andengineering sciences
PO 3 Design/development of solutions: Design solutions for complex engineering problems and design systemcomponents or processes that meet the specified needs with appropriate consideration for the public healthand safety, and the cultural, societal, and environmental considerations.
PO 4 Conduct investigations of complex problems: Use research-based knowledge and research methodsincluding design of experiments, analysis and interpretation of data, and synthesis of the information toprovide valid conclusions
PO 5 Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineeringand IT tools including prediction and modeling to complex engineering activities with an understanding ofthe limitations
PO 6 The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal,health, safety, legal and cultural issues and the consequent responsibilities relevant to the professionalengineering practice
PO 7 Environment and sustainability: Understand the impact of the professional engineering solutions insocietal and environmental contexts, and demonstrate the knowledge of, and need for sustainabledevelopment
PO 8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of theengineering practice
PO 9 Individual and team work: Function effectively as an individual, and as a member or leader in diverseteams, and in multidisciplinary settings
PO 10Communication: Communicate effectively on complex engineering activities with theengineering community and with society at large, such as, being able to comprehend and writeeffective reports and design documentation, make effective presentations, and give and receiveclear instructions.
PO 11 Project management and finance: Demonstrate knowledge and understanding of the engineering andmanagement principles and apply these to one‘s own work, as a member and leader in a team, to manageprojects and in multidisciplinary environments
PO 12Life-long learning: Recognize the need for, and have the preparation and ability to engage inindependent and life-long learning in the broadest context of technological change.
PSOS.NO
PROGRAM SPECIFIC OUTCOMES
PSO I To analyze, design and develop solutions by applying foundational concepts of electronics andcommunication engineering.
PSO2 To apply design principles and best practices for developing quality products for scientific andbusiness applications.
PSO 3 To adapt to emerging information and communication technologies (ICT) to innovate ideas andsolutions to existing/novel
problems.
Contribution 1:Reasonable 2: Significant 3: Strong
MAPPING OF PROGRAM SPECIFIC OBJECTIVES WITH PROGRAMME OUTCOMES
A broad relation between the Program Specific Objectives and theoutcomes is given in the following table
PROGRAMSPECIFICOBJECTIVES
PROGRAMME OUTCOMESPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11PO12
PSO1 3 3 2 3 2 1 1 1 1 1 1 2PSO2 3 3 3 3 3 2 2 3 1 3 3 3PSO3 3 3 3 3 3 3 3 2 1 1 1 3
CO Sl. No COURSE OUTCOMES Mapping of courseoutcome with PO and PSO
HS6151 - COMMUNICATIVE ENGLISH
COEC001
Read articles of a general kind in magazines andnewspapers
Participate effectively in informal conversations;introduce themselves and their friends and expressopinions in English.
Comprehend conversations and short talks delivered inEnglish
Write short essays of a general kind and personal lettersand emails in English.
PO6,PO7,PO8,PO9,PO10,PO11
MA6151 MATHEMATICS – I
COEC002
Use both the limit definition and rules of differentiationto differentiate functions.
Apply differentiation to solve maxima and minimaproblems.
Evaluate integrals both by using Riemann sums and byusing the Fundamental Theorem of Calculus
Apply integration to compute multiple integrals, area,volume, integrals in polar coordinates, in addition tochange of order and change of variables
Apply various techniques in solving differentialequations
PO1,PO2,PO3,PO4,PO11,PO12
PH6151 - ENGINEERING PHYSICS
COEC003
the students will gain knowledge on the basics ofproperties of matter and its applications
the students will acquire knowledge on the concepts ofwaves and optical devices and their applications in fibreoptics
the students will have adequate knowledge on theconcepts of thermal properties of materials and theirapplications in expansion joints and heat exchangers
the students will get knowledge on advanced physicsconcepts of quantum theory and its applications intunneling microscopes
the students will understand the basics of crystals, theirstructures and different crystal
growth techniques.
PO1,PO2,PO3,PO4,PO11,PO12
CY6151 ENGINEERING CHEMISTRY
COEC004
The knowledge gained on engineering materials, fuels,energy sources and water treatment
techniques will facilitate better understanding of engineering processes and applications
for further learning
PO1,PO2,PO3,PO4,PO11,PO12
GE6151 COMPUTER PROGRAMMING
COEC005
Develop algorithmic solutions to simple computationalproblems
Read, write, execute by hand simple Python programs. Design C Programs for problems Write and execute C programs fo simple applications
PO1,PO2,PO3,PO4,PO5,PO11,PO12
GE6152 ENGINEERING GRAPHICS
COEC006
Perform free hand sketching of basic geometricalconstructions and multiple views of objects.
Do orthographic projection of lines and plane surfaces. Draw projections and solids and development of surfaces Prepare isometric and perspective sections of simple
solids Demonstrate computer aided drafting
PO1,PO10,PO12
GE6161 COMPUTER PRACTICES LABORATORY
COEC007
Apply good programming design methods for programdevelopment.
Design and implement C programs for simpleapplications
Develop recursive programs.
PO1,PO2,PO3,PO4,PO5,PO11,PO12
GE6162 ENGINEERING PRACTICES LABORATORY
COEC008
Ability to fabricate carpentry components and pipeconnections including plumbing works
Ability to use welding equipments to join the structures. Ability to fabricate electrical and electronics circuits.
PO1,PO10,PO12
GE6163 PHYSICS AND CHEMISTRY LABORATORY – I
COEC009
The hands on exercises undergone by the students willhelp them to apply physics principles of optics andthermal physics to evaluate engineering properties ofmaterials.
The students will be outfitted with hands-on knowledgein the quantitative chemical analysis of water qualityrelated parameters
PO1,PO2,PO3,PO4,PO11,PO12
HS6251 TECHNICAL ENGLISH II
COEC010
Speak convincingly, express their opinions clearly,initiate a discussion, negotiate, argue using appropriatecommunicative strategies.
write effectively and persuasively and produce differenttypes of writing such as narration, description,exposition and argument as well as creative, critical,analytical and evaluative writing
read different genres of texts, infer implied meaningsand critically analyse and evaluate them for ideas aswell as for method of presentation.
listen/view and comprehend different spoken excerptscritically and infer unspoken and implied meanings
PO6,PO7,PO8,PO9,PO10,PO11
MA6251 MATHEMATICS – II
COEC011
The subject helps the students to develop thefundamentals and basic concepts in vector calculus,ODE, Laplace transform and complex functions.Students will be able to solve problems related toengineering applications by using these techniques.
PO1,PO2,PO3,PO4,PO11,PO12
PH6251 ENGINEERING PHYSICS – II
COEC012 The students will have the knowledge on physics of
materials and that knowledge will be used by them indifferent engineering and technology applications
PO1,PO2,PO3,PO4,PO11,PO12
CY6251 ENGINEERING CHEMISTRY-II
COEC013
The knowledge gained on engineering materials, fuels,energy sources and water treatment techniques willfacilitate better understanding of engineering processesand applications for further learning.
PO1,PO2,PO3,PO4,PO11,PO12
EC6201 ELECTRONIC DEVICES
COEC014 Explain the theory, construction, and operation of basic
electronic devices. Use the basic electronic devices
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EE6201 CIRCUIT THEORY
COEC015 Ability analyze electrical circuits Ability to apply circuit theorems Ability to analyze AC and DC Circuits
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
GE6262 PHYSICS AND CHEMISTRY LABORATORY – II
COEC016 The students will have the ability to test materials by
using their knowledge of applied physics principles inoptics and properties of matter.
PO1,PO2,PO3,PO4,PO5,PO11,PO12
CHEMISTRY LABORATORY -II
COEC017
The students will be conversant with hands-onknowledge in the quantitative chemical analysis ofwater quality related parameters, corrosion measurementand cement analysis
PO1,PO2,PO3,PO4,PO5,PO11,PO12
EC6211 CIRCUITS AND DEVICES LABORATORY
COEC018
Learn the characteristics of basic electronic devices
Design RL and RC circuits
Verify Thevenin & Norton theorem KVL & KCL,and Super Position Theorems
PO1,PO2,PO3,PO4,PO5,PO11,PO12
MA6351 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS
COEC019
The understanding of the mathematical principleson transforms and partial differential equationswould provide them the ability to formulate andsolve some of the physical problems of engineering
PO1,PO2,PO3,PO4,PO5,PO11,PO12
EE6352 ELECTRICAL ENGINEERING AND INSTRUMENTATION
COEC020
The three phase supply and power measurement.
The concepts in electrical generators, motors andtransformers.
The basic measurement and instrumentation baseddevices.
The relevance of digital instruments inmeasurements
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6301 OBJECT ORIENTED PROGRAMMING AND DATA STRUCTURES
COEC021
Explain the concepts of Object orientedprogramming.
Write simple applications using C++.
Discuss the different methods of organizing largeamount of data.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6302 DIGITAL ELECTRONICS
COEC022
Analyze different methods used forsimplification of Boolean expressions.
Design and implement Combinational circuits.
Design and implement synchronous andasynchronous sequential circuits
Write simple HDL codes for the circuits.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6303 SIGNALS AND SYSTEMS
COEC023
Analyze the properties of signals & systems
Apply Laplace transform, Fourier transform, Ztransform and DTFT in signal analysis
Analyze continuous time LTI systems usingFourier and Laplace Transforms
Analyze discrete time LTI systems using Ztransform and DTFT
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6304 ELECTRONIC CIRCUITS – I
COEC024
Design circuits with transistor biasing. Design simple amplifier circuits. Analyze the small signal equivalent circuits of
transistors Design and analyze large signal amplifier
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6311 ANALOG AND DIGITAL CIRCUITS LABORATORY
COEC025
Differentiate cascade and cascade amplifier.
Analyze the limitation in bandwidth of singlestage and multi stage amplifier
Simulate amplifiers using Spice
Measure CMRR in differential amplifier
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6312 OOPS AND DATA STRUCTURES LABORATORY
COEC026
Design and implement C++ programs formanipulating stacks, queues, linked lists, trees,and graphs.
Apply good programming design methods forprogram development.
Apply the different data structures forimplementing solutions to practical problems
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
MA6451 PROBABILITY AND RANDOM PROCESSES
COEC027
The students will have an exposure of variousdistribution functions and help in acquiring skillsin handling situations involving more than onevariable. Able to analyze the response of randominputs to linear time invariant systems.
PO1,PO2,PO3,PO4,PO5,PO11,PO12
EC6401 ELECTRONIC CIRCUITS II
COEC028
Design and analyze feedback amplifiers. Design LC and RC oscillators, tuned amplifiers,
wave shaping circuits, multivibrators, blockingoscillators and time base generators.
Analyze performance of tuned amplifiers.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6402 COMMUNICATION THEORY
COEC029
Design AM communication systems
Design Angle modulated communication systems
Apply the concepts of Random Process to thedesign of Communication systems
Analyze the noise performance of AM and FMsystems
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6403 ELECTROMAGNETIC FIELDS
COEC030
Analyze field potentials due to static changes andstatic magnetic fields.
Explain how materials affect electric and magneticfields.
Analyze the relation between the fields under timevarying situations
Discuss the principles of propagation of uniformplane waves.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6404 LINEAR INTEGRATED CIRCUITS
COEC031
Design linear and non linear applications of op –amps
Design applications using analog multiplier andPLL.
Design ADC and DAC using op – amps.
Generate waveforms using op – amp circuits
Analyze special function ICs
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6405 CONTROL SYSTEM ENGINEERING
COEC032
Perform time domain and frequency domainanalysis of control systems required for stabilityanalysis.
Design the compensation technique that can beused to stabilize control systems
PO1,PO2,PO3,PO4,PO5,PO6,PO11,
PO12
EC6411 CIRCUITS AND SIMULATION INTEGRATED LABORATORY
COEC033
Analyze various types of feedback amplifiers
Design oscillators, tuned amplifiers, wave-shapingcircuits and multivibrators
Design and simulate feedback amplifiers,oscillators, tuned amplifiers, wave-shapingcircuits and multivibrators using SPICE Tool.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,
PO12
EC6412 LINEAR INTEGRATED CIRCUITS LABORATORY
COEC034
Design oscillators and amplifiers using operationalamplifiers.
Design filters using Opamp and performexperiment on frequency response.
Analyse the working of PLL and use PLL asfrequency multiplier
Design DC power supply using ICs
Analyse the performance of oscillators andmultivibrators using SPICE
PO1,PO2,PO3,PO4,PO5,PO6,PO11,
PO12
EE6461 ELECTRICAL ENGINEERING AND CONTROL SYSTEM LABORATORY
COEC035
Perform experiments to study the loadcharacteristics of DC motors / generators.
Design bridge network circuit to measure thevalues of passive component
Analyse the stability of linear system throughsimulation software
Obtain transfer function of DC generators
PO1,PO2,PO3,PO4,PO5,PO6,PO11,
PO12
EC6501 DIGITAL COMMUNICATION
COEC036
Design PCM systems
Design and implement base band transmissionschemes
Design and implement band pass signalingschemes
Analyze the spectral characteristics of band passsignaling schemes and their noise performance
Design error control coding schemes
PO1,PO2,PO3,PO4,PO5,PO6,PO11,
PO12
EC6502 PRINCIPLES OF DIGITAL SIGNAL PROCESSING
COEC037
apply DFT for the analysis of digital signals &systems
design IIR and FIR filters
characterize finite Word length effect on filters
design the Multirate Filters
apply Adaptive Filters to equalization
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6503 TRANSMISSION LINES AND WAVE GUIDES
COEC038
Discuss the propagation of signals throughtransmission lines.
Analyze signal propagation at Radio frequencies
Explain radio propagation in guided systems
Utilize cavity resonators
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
GE6351 ENVIRONMENTAL SCIENCE AND ENGINEERING
COEC039
Public awareness of environment at infant stage Ignorance and incomplete knowledge has lead to
misconceptions Development and improvement in standard of
living has lead to serious environmentaldisasters.
PO1,PO2,PO4,PO6,PO7,PO8,PO11,PO12
EC6504 MICROPROCESSOR AND MICROCONTROLLER
COEC040
Design and implement programs on 8086microprocessor
Design I/O circuits.
Design Memory Interfacing circuits
Design and implement 8051 microcontrollerbased systems.
PO1,PO2,PO3,PO4,PO5,PO6,PO11,PO12
EC6511 DIGITAL SIGNAL PROCESSING LABORATORY
COEC041
Carry out simulation of DSP systems
Demonstrate their abilities towards DSP processor basedimplementation of DSP systems
Analyze Finite word length effect on DSP systems
Demonstrate the applications of FFT to DSP
Implement adaptive filters for various applications of DSP
PO1,PO2,PO3,PO4,
PO5,PO6,PO11,PO12
EC6512 COMMUNICATION SYSTEMS LABORATORY
COEC042
Simulate end-to-end Communication Link
Demonstrate their knowledge in base band signaling schemesthrough implementation of FSK, PSK and DPSK
Apply various channel coding schemes & demonstrate theircapabilities towards the improvement of the noise performance ofcommunication system
Simulate & validate the various functional modules of acommunication system
PO1,PO2,PO3,PO4,
PO5,PO6,PO11,PO12
EC6513 MICROPROCESSOR AND MICROCONTROLLER LABORATORY
COEC043
Write ALP Programmes for fixed and Floating Point andArithmetic
Interface different I/Os with processor
Generate waveforms using Microprocessors
Execute Programs in 8051
Explain the difference between simulator and Emulator
PO1,PO2,PO3,PO4,
PO5,PO6,PO11,PO12
MG6851 PRINCIPLES OF MANAGEMENT
COEC044
Upon completion of the course, students will be able to have clearunderstanding of managerial functions like planning, organizing,staffing, leading & controlling and have same basic knowledge oninternational aspect of management
PO6,PO7,PO8,PO10,PO11,PO12
CS6303 COMPUTER ARCHITECTURE
COEC045
Design arithmetic and logic unit.
Design and analyze pipelined control units
Evaluate performance of memory systems.
Understand parallel processing architectures
PO1,PO2,PO3,PO4,
PO6,PO11,PO12
CS6551 COMPUTER NETWORKS
COEC046
Identify the components required to build different types ofnetworks
Choose the required functionality at each layer for givenapplication
Identify solution for each functionality at each layer
Trace the flow of information from one node to another node inthe network
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO1
2
EC6601 VLSI DESIGN
COEC047
Explain the basic CMOS circuits and the CMOSprocess technology.
Discuss the techniques of chip design usingprogrammable devices
Model the digital system using HardwareDescription Language
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6602 ANTENNA AND WAVE PROPAGATION
COEC048
Explain the various types of antennas and wavepropagation
Write about the radiation from a current element
Analyze the antenna arrays, aperture antennas andspecial antennas such as frequency independentand broad band
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6611 COMPUTER NETWORKS LABORATORY
COEC049
Communicate between two desktop computers
Implement the different protocols
Program using sockets.
Implement and compare the various routingalgorithms
Use simulation tool.
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6612 VLSI DESIGN LABORATORY
COEC050
Write HDL code for basic as well as advanceddigital integrated circuits
Import the logic modules into FPGA Boards.
Synthesize, Place and Route the digital IPs.
Design, Simulate and Extract the layouts ofAnalog IC Blocks using EDA tools.
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
GE6674 COMMUNICATION AND SOFT SKILLS- LABORATORY
COEC051
Take international examination such as IELTS andTOEFL
Make presentations and Participate in GroupDiscussions
Successfully answer questions in interviews
PO6,PO8,PO9,PO10,PO11,PO12
EC6701 RF AND MICROWAVE ENGINEERING
COEC052
Explain the active & passive microwave devices &components used in Microwave communicationsystems
Analyze the multi- port RF networks and RFtransistor amplifiers
Generate Microwave signals and designmicrowave amplifiers
Measure and analyze Microwave signal andparameters
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6702 OPTICAL COMMUNICATION AND NETWORKS
COEC053
Discuss the various optical fiber modes, configurationsand various signal degradation factors associated withoptical fiber.
Explain the various optical sources and optical detectorsand their use in the optical communication system.
Analyze the digital transmission and its associatedparameters on system performance
PO1,PO2,PO3,PO4,PO6,PO11,
PO12
EC6703 EMBEDDED AND REAL TIME SYSTEMS
COEC054
Describe the architecture and programming of ARMprocessor.
Outline the concepts of embedded systems
Explain the basic concepts of real time Operating systemdesign
Use the system design techniques to develop software forembedded systems
Differentiate between the general purpose operatingsystem and the real time operating system
Model real-time applications using embedded-systemconcepts
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6711 EMBEDDED LABORATORY
COEC055
Write programs in ARM for a specific Application
Interface memory and Write programs related tomemory operations
Interface A/D and D/A convertors with ARMsystem
Analyze the performance of interrupt
Write programmers for interfacing keyboard,display, motor and sensor
Formulate a mini project using embedded system
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6712 OPTICAL AND MICROWAVE LABORATORY
COEC056
Analyze the performance of simple optical link.
Test microwave and optical components.
Analyze the mode characteristics of fiber
Analyze the radiation of pattern of antenna.
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6801 WIRELESS COMMUNICATION
COEC057
Characterize wireless channels
Design and implement various signaling schemesfor fading channels
Design a cellular system
Compare multipath mitigation techniques andanalyze their performance
Design and implement systems withtransmit/receive diversity and MIMO systems andanalyze their performance
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6802 WIRELESS NETWORKS
COEC058
Conversant with the latest 3G/4G and WiMAXnetworks and its architecture
Design and implement wireless networkenvironment for any application using latestwireless protocols and standards.
Implement different type of applications for smartphones and mobile devices with latest networkstrategies.
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6811 PROJECT WORK
COEC059
On Completion of the project work students will bein a position to take up any challenging practicalproblems and find solution by formulating propermethodology
PO1,PO2,PO3,PO4,PO5PO6,PO8,PO9,PO10,PO11,PO12
EC6001 MEDICAL ELECTRONICS
COEC060
Discuss the application of electronics in diagnosticand therapeutic area.
Measure biochemical and various physiologicalinformation
Describe the working of units which will help torestore normal functioning
PO1,PO2,PO3,PO4,PO5PO11,PO12
IT6005-DIGITAL IMAGE PROCESSING
COEC061
Discuss digital image fundamentals
Apply image enhancement and restorationtechniques
Use image compression and segmentationTechniques
Represent features of images.
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
EC6009 ADVANCED COMPUTER ARCHITECTURE
COEC062 Evaluate performance of different architectureswith respect to various parameters
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
Analyze performance of different ILP techniques
Identify cache and memory related issues in multi-processors
EC6014 COGNITIVE RADIO
COEC063
Describe the basics of the software defined radios.
Design the wireless networks based on thecognitive radios
Explain the concepts behind the wireless networksand next generation networks
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
CS6003 AD HOC AND SENSOR NETWORKS
COEC064
Explain the concepts, network architectures andapplications of ad hoc and wireless sensor networks
Analyze the protocol design issues of ad hoc andsensor networks
Design routing protocols for ad hoc and wirelesssensor networks with respect to some protocoldesign issues
Evaluate the QoS related performancemeasurements of ad hoc and sensor networks
PO1,PO2,PO3,PO4,PO5PO6,PO11,PO12
GE6075 PROFESSIONAL ETHICS IN ENGINEERING
COEC065
Upon completion of the course, the student shouldbe able to apply ethics in society, discuss theethical issues related to engineering and realize theresponsibilities and rights in the society
PO6,PO7,PO8,PO10,PO11,PO12
GE6757 TOTAL QUALITY MANAGEMENT
COEC066 The student would be able to apply the tools and
techniques of quality management tomanufacturing and services processes.
PO6,PO7,PO8,PO10,PO11,PO12
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Department Vision:
To emerge as a “center for excellence” offering technical education and research opportunities of very
high standards to students, develop total personality of the individual, and instill high levels of discipline and
strive to set global standards, making our students technologically superior and ethically strong, who in turn
shall contribute for the advancement of society and human kind.
Department Mission:
To dedicate and commit ourselves to achieve, sustain and foster unmatched excellence in technical
education. To this end, we will pursue continuous development of infrastructure and enhance state of art
equipment to provide our students a technologically up-to-date and intellectually inspiring environment of
learning, research, creativity, innovation and professional activity and in calculate in ethical and moral values.
Regulation 13
PROGRAMME EDUCATIONAL OBJECTIVES:
1. Graduates will have the knowledge for the application of scientific principles, Mathematical methods, technical and Innovative skills to perform analysis, application engineering, and system or process development in Marine Industry
2. Graduates will have the knowledge by engaging in continuous education and will have the ability to function effectively as leaders on professional teams with ability to communicate effectively using speaking, writing and presentation skills.
3. Graduates of the program are to have demonstrated the competent to carry out the Engineering watch at sea and to maintain systems or processes and to direct, supervise, and make important decisions regarding the design and engineering of problems based on engineering fundamentals and modern technological tools.
4. Graduates will demonstrate a respect for professional, ethical and social and environmental issues as well as a commitment to safety, quality and productivity.
PROGRAMME SPECIFIC OBJECTIVE
1. The ability to have thorough knowledge of maritime industry in accordance with the STCW- conventions amended time-to-time,
2. Possess an overall and conscious understanding about marine engineering at the operational and management level
3. Posses knowledge of national and international rules and regulations concerning marine engineering
4. Posses the Necessary skill for the technical operation of ships in both off-shore and on-shore.
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
2. PROGRAMME OUTCOMES
a. Ability to apply current knowledge and adapt to emerging applications of mathematics, science, engineering, and technology to problems associated with marine equipment, systems, and vehicles.
b. Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
c. Ability to conduct, use proper laboratory practices, use instrumentation for measuring physical phenomena, analyze and interpret experiments and apply experimental results to improve processes and design.
d. Ability to apply creativity in the design of systems, components, or processes in the marine environment.
e. Ability to apply the principles of fluid mechanics, hydrostatic stability, solid mechanics, materials, dynamics, and energy systems to technical problems related to marine equipment, systems, and vehicles. (Including selecting appropriate materials and methods for manufacturing of machine parts).
f. Graduates should be able to operate maintain and repair main, auxiliary machinery and associated control System and automation. Graduate should be capable of using appropriate hand tools, machine tools and measuring instruments.
g. Graduates should be capable of preventing, controlling, and fighting fire on board and be aware of proper use of Fire Fighting Appliances & Life Saving Appliances and have the knowledge of Ship safety and First aid.
h. Ability to understand and apply professional, ethical and social responsibilities and global issues i. An ability to communicate effectively and apply written, oral, and graphical communication in
both technical and non-technical environments; and an ability to identify and use appropriate technical literature including technical report.
j. Commitment to quality, timeliness and continuous improvement with lifelong learning k. Ability to engage in the operation, maintenance, analysis and management of modern marine
power plants and associated equipment and systems and competent to undertake independent watch-keeping at Engine room.
l. Competency of the knowledge, techniques, skills and to use design manuals, equipment specifications, and industry regulations, modern tools of marine engineering technology as specified in Table III/I as per 2010 STCW Convention.
3. PEO/ PO Mapping
PEO/PO a b c d e f g h i j k l
1
2
3
4
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
4. Semester Course wise PEO mapping
Course Title a b c d e f g h i j k l
YE
AR
I
SE
ME
ST
ER
I
Technical English – I
Mathematics for Marine Engineering – I
Engineering Physics-I
Chemistry for Marine
Engineering-1
Computer Programming
Engineering Graphics
Basics of Marine Engineering
Practical
Computer Practices Laboratory
Physics and Chemistry Laboratory
Marine Engineering Practices Laboratory
SE
ME
ST
ER
II
Technical English for Marine Engineering–II
Mathematics for Marine Engineering – II
Engineering Physics-II
Basics of Electrical and Electronics Engineering
Marine Engineering Thermodynamics
Engineering Mechanics
Practical
Computer Aided Drafting and Modeling Laboratory
Physics and Chemistry Laboratory - II
Computer Programming Laboratory
Workshop Fitting
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
YE
AR
II
SE
ME
ST
ER
III
Transforms and Partial Differential Equations
Marine Hydraulics and Fluid Machinery
Seamanship, Elementary Navigation and Survival At Sea
Marine Manufacturing Technology
Marine Electrical Machines – I
Marine Refrigeration and Air Conditioning
Marine Machinery Drawing
Practical
Marine Hydraulics and Fluid Machinery Laboratory
WELDING TECHNIQUES, LATHE AND SPECIAL MACHINE SHOP
SE
ME
ST
ER
IV
Applied Mathematics for Marine Engineering
Marine Diesel Engines – I
Mechanics of Solids
Marine Electrical Machines – II
Marine Engineering Materials
Marine Electronics
Marine Steam Engines
Practical
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Strength of Materials and Applied Mechanics Laboratory
Heat Engines, Boiler Chemistry and Refrigeration Laboratory
YE
AR
III
SE
ME
ST
ER
V
Marine Auxiliary Machinery I
Marine Diesel Engines II
Stability of Ships
Ship Construction
Mechanics of Marine Machines
Marine Boilers and Steam Engineering
Practical
Electrical Engg., Electronics and Microprocessor Laboratory
Computer Aided Marine Engineering Design and Analysis Laboratory
Measurement, Instrumentation and Refrigeration Laboratory
SE
ME
ST
ER
VI
Marine Workshop Practical and Afloat Training
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
YE
AR
IV
SE
MS
TE
R
VII
Marine Machinery and Systems Design
Marine Electrical Technology
Marine Vehicles Performance
Marine Auxiliary Machinery – II
Ship’s Fire Prevention and Control
Professional Elective – I
Practical
Fire Fighting, Controls and Simulator Laboratory
Marine Propulsion and Auxiliary Machinery Overhauling Laboratory
Communication Skills - Laboratory Based
SE
ME
ST
ER
VII
I
Environmental Science and Engineering
Ship Operational Management and IMO Requirements
Safety Precautions and Watch Keeping
Marine Control Engineering and Automation
Professional Elective II
Practical Project Work
Comprehension
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
CO Sl. No COURSE OUTCOMES
Mappin
g of
course
outcome
with PO
and PSO
COMR001
HS6151 TECHNICAL ENGLISH – I Learners should be able to
Speak clearly, confidently, comprehensibly, and communicate with one or many listeners using appropriate communicative strategies.
Write cohesively and coherently and flawlessly avoiding grammatical errors, using a wide vocabulary range, organizing their ideas logically on a topic.
Read different genres of texts adopting various reading strategies. Listen/view and comprehend different spoken discourses/excerpts in
different accents
i
COMR002 MA6152 Mathematics for Marine Engineering – I
After completing this course, students should demonstrate competency in the following skills:
Use rules of differentiation to differentiate functions. Apply differentiation to solve maxima and minima problems. Evaluate integrals using the Fundamental Theorem of Calculus. Apply integration to compute arc lengths, volumes of
revolution and surface areas of revolution. Apply integration to compute multiple integrals, area,
moment of inertia, integrals in polar coordinates, in addition to change of order.
a
COMR003 PH6151 Engineering Physics – I
Upon completion of this course,
the students will gain knowledge on the basics of properties of matter and its applications,
the students will acquire knowledge on the concepts of waves and optical devices and their applications in fibre optics,
the students will have adequate knowledge on the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers,
a
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
the students will get knowledge on advanced physics concepts of quantum theory and its applications in tunneling microscopes, and the students will understand the basics of crystals, their structures and different crystal growth techniques.
COMR004 CY6152 Chemistry for Marine Engineering – I
The knowledge gained on various aspects of water chemistry, energy sources and nanochemistry will provide a strong platform to understand concepts on these subjects for further learning.
a
COMR005 GE6151 Computer Programming
Upon completion of the course, students will be able to
Develop algorithmic solutions to simple computational problems
Read, write, execute by hand simple Python programs.
Structure simple Python programs for solving problems.
Decompose a Python program into functions. Represent compound data using Python lists, tuples,
dictionaries. Read and write data from/to files in Python
Programs.
b
COMR006 GE6152 Engineering Graphics
On successful completion of this course, the student will be able to
familiarize with the fundamentals and standards of Engineering graphics
perform freehand sketching of basic geometrical constructions and multiple views of objects.
project orthographic projections of lines and plane surfaces. draw projections and solids and development of surfaces.
visualize and to project isometric and perspective sections of simple solids.
d
COMR007 MV6101 BASICS OF MARINE ENGINEERING
Ability to identify the sources of renewable and nonrenewable energy
towers.
Ability to explain the working principles of 2 Stroke and 4 Stroke Marine
Engines
f
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Ability to explain the working cycle of Refrigeration and Air-
Conditioning used in marine
Ability to explain different forming and metal forming processes.
COMR008 GE6161 Computer Practices Laboratory
Upon completion of the course, students will be able to
Write, test, and debug simple Python programs. Implement Python programs with conditionals and loops. Develop Python programs step-wise by defining functions and calling
them. Use Python lists, tuples, dictionaries for representing compound data. Read and write data from/to files in Python.
c
COMR009 GE6163 Physics and Chemistry Laboratory - I
Upon completion of the course, the students will be able to
apply principles of elasticity, optics and thermal properties for engineering applications.
c
COMR010 MV6111 Marine Engineering Practices Laboratory
Ability to fabricate plumping and carpeting components
Ability to use welding equipments to join the structures.
Ability to fabricate electrical and electronics circuits.
c
COMR011 HS6252 TECHNICAL ENGLISH FOR MARINE ENGINEERING
Learners should be able to employ english effectively for all theor commutative purposes, both formal and informal contexts.
Learners should be able to deploy specific English (Marine Engineering) skills required for all their professional work.
Learners should be able to write and publish their research articles in refereed journals, including the international journals.
a
COMR012 MA6252 MATHEMATICS FOR MARINE ENGINEERING – II
The basic and fundamental knowledge gained by the students in the application of ordinary differential equations vector fields and transformations will be applied by them in the process field related to marine engineering.
a
COMR013 PH6251 ENGINEERING PHYSICS – II
The students will have the knowledge on physics of materials and that knowledge will be used by them in different engineering and technology applications.
e
COMR014 GE6252 BASIC ELECTRICAL AND ELECTRONICS ENGINEERING h
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Ability to identify the electrical components
Explain the characteristics of electrical machines
Ability to identity of electronics components and use of them to design circuits.
COMR015 MV6201 MARINE ENGINEERING THERMODYNAMICS
Upon completion of this course, the students can able to apply the Thermodynamic Principles to Mechanical Engineering Application.
Apply mathematical fundamentals to study the properties of steam, gas and gas mixtures
h
COMR016 GE6253 ENGINEERING MECHANICS
Ability to explain the differential principles applies to solve engineering problems dealing with force, displacement, velocity and acceleration.
Ability to analyse the forces in any structures.
Ability to solve rigid body subjected to dynamic forces.
a,d
COMR017 GE6261 COMPUTER AIDED DRAFTING AND MODELING LABORATORY
Ability to use the software packages for drafting and modeling
Ability to create 2D and 3D models of engineering components.
c
COMR018 GE6262 PHYSICS AND CHEMISTRY LABORATORY – II
The students will have the ability to test materials by using their knowledge of applied physics principles in optics and properties of matter.
c
COMR019 GE6263 COMPUTER PROGRAMMING LABORATORY At the end of the course the students should me able to:
Use Shell commands
Design of Implement Unix shell scripts
Write and execute C programs on Unix
c
COMR020 MV6211 WORKSHOP FITTING
Ability to fabricate components using sheet metal.
Ability to handle tools used in workshop
Ability to use the welding process for forming
Ability to make joint using fitting
c
COMR021 MA6351 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS
a
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
The understanding of the mathematical principles on transforms and partial differential equations would provide them the ability to formulate and solve some of the physical problems of engineering.
COMR022 MV6301 MARINE HYDRAULICS AND FLUID MACHINERY At the end the course the students are expected to have the knowledge of
The Fluid properties and effect of various forces acting on different planes ,surfaces and Pipes.
The In-viscid flow and Real Viscous flow and their characteristics.
The principles of theoretical aspect of pumps and hydraulic turbines fitted on board ships.
e
COMR023 MV6302 SEAMANSHIP, ELEMENTARY NAVIGATION AND SURVIVAL AT SEA On completion of the course the students are expected to • Have learnt operation of various deck machinery and Navigation equipment • Have sound knowledge of Navigation. • Have learnt survival techniques at sea. • Have learnt operation of life boats and life rafts.
g
COMR024 MV6303 MARINE MANUFACTURING TECHNOLOGY At the end of the course the students are expected to have the knowledge of
Metal joining processes
Casting processes.
Metal forming, Machining and finishing processes.
e
COMR025 MV6304 MARINE ELECTRICAL MACHINES – I At the end of the course the students are expected to have
The knowledge about construction and operation of D.C. Machines in general and generators in particular
To introduce the concepts about measurement practices and measuring instruments.
.To familiarize the students with the operation and control of D.C. motors.
To study the construction and operation of transformer.
To study the structure and functioning of transmission and distribution.
A,d
COMR026 MV6305 MARINE REFRIGERATION AND AIR CONDITIONING At the end of the course the students are expected to have the knowledge on
The performance of Reciprocating Compressors,
The theoretical aspects of Marine refrigeration and air-conditioning
The method of economical and efficient design of Heat Exchangers for Air conditioning and refrigeration plants.
f
COMR027 Mv6306 MARINE MACHINERY DRAWING At the end of the course the students would have learnt
The Method of sketching to Explain the Limits, Fits and Tolerances arcs etc., with respect to the Marine Machinery.
b
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
To Sketch Valves, Cocks and Plugs .
To draw Various parts of Marine Machinery and the general Marine components
COMR028 MV6311 MARINE HYDRAULICS AND FLUID MACHINERY LABORATORY After completion of the Laboratory Experiments the students would have the skill to
Understand the flow behavior of fluids
Calculate the frictional losses and Cd of fluids when it passes through various obstructions
Calculate the performance characteristics of hydraulic pumps and turbines.
c
COMR029 MV6312 WELDING TECHNIQUES, LATHE AND SPECIAL MACHINE SHOP At the end of this work shop training the students would have the skill
To carry out repair of Ship machinery and components by welding
To do any kind of sheet metal works
To make machine components using Lathes and Special machines such as milling, grinding and slotting machine.
c
COMR030 MA6465 APPLIED MATHEMATICS FOR MARINE ENGINEERING
To acquaint the students with fundamental knowledge of the concepts from Statistics and Probability.
To introduce standard distributions which can describe real life phenomenon.
To introduce the notion of sampling techniques and numerical used in Marine engineering problems.
a
COMR031 MV6401 MECHANICS OF SOLIDS On completion of this course the students would have learnt
The methods of determining various stresses and strains in simple and composite members under external load, strength of simple connections and strain energy stored in members.
The concept of principal stresses and maximum shear stresses.
To design beams which can resist bending and shearing stresses T
To calculate the Shear force and Bending moment for the various types of statically determinate and indeterminate beams and the method of drawing the SFD and BMD.
To calculate the deflections caused by the application of loads and design of solid, hollow shafts, open coiled and closed coiled helical springs based on shear and bending.
e
COMR032 MV6402 MARINE DIESEL ENGINES – I On completion of the course the students are expected to have knowledge
On Various types of Marine Diesel Engines.
Of Various systems used in Marine Diesel Engine plants.
f
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
On the theoretical aspect of Scavenging and super charging system.
Of qualities and behavior of various types of fuel Oil and Lubricating Oil used in Marine Diesel Engines.
COMR033 MV6403 MARINE STEAM ENGINES At the end the course the students should have
Completed the detailed study of steam cycles, steam engines, steam nozzle and Turbines
The knowledge to calculate the efficiencies of Steam Turbine plant
Learnt about basics of heat transfer.
k
COMR034 MV6404 MARINE ELECTRICAL MACHINES – II After completing the course the students should have the knowledge of
The procedure for producing electricity on board ships through alternators and associated controls
To measure the power method of finding cable faults.
Design features of Alternators – their construction and operation.
Principles of operation and construction details of synchronous motors, induction machines
Speed control and trouble shooting in induction machines.
A,d
COMR035 MV6405 MARINE ENGINEERING MATERIALS At the end of the course the students are capable of knowing
Properties of metals and non metals and uses
Various heat treatment processes
Metal Processing methods
Testing of joints using destructive and non destructive methods
e
COMR036 MV6406 MARINE ELECTRONICS At the end of the course the students are expected to have learnt
Amplifier Theory, Digital Circuits, Logic systems and Gates.
Analog and Digital Converters and their applications
Electronic Instruments and Micro Processors.
e
COMR037 MV6411 STRENGTH OF MATERIALS AND APPLIED MECHANICS LAB At the end of this laboratory course the students are expected to have acquired the skill
To operate the various testing machines.
To carry out various tests on materials
To choose the best materials for a particular use , based on the test results
E,l
COMR038 MV6412 HEAT ENGINES LAB AND BOILER CHEMISTRY LAB At the end of the course the students are expected to have acquired the skill
To perform various tests on the heat engines
E,l
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
To Analyse the results to understand the performance characteristics of engines
To Perform Boiler water tests , Sea water and fresh water tests
To Choose the best water ,oils, fuels and lubricants based on the test results.
COMR039 MV6501 MARINE AUXILIARY MACHINERY – I On completion of the course the students will acquire knowledge of
Ship‟s Engine Room Layout, Piping systems and fittings.
Various types of Pumps and its applications.
Construction details of Heat exchangers, Evaporators
Fresh water Generators
Ship‟s steering systems.
k
COMR040 MV6502 MARINE DIESEL ENGINES – II On completion of the course the students will have knowledge of
Marine fuel injection pumps and its applications.
Manouvering systems of various marine diesel engines.
Forces and stresses in slow speed and medium speed engines.
Construction and operation of various Marine slow speed engines.
k
COMR041 MV6503 STABILITY OF SHIPS At the End of the Course the Students would have acquired the knowledge of
Basic hydrostatics , Geometry of Ships
Calculations of Ship Forms and various coefficients,
Calculating the Area of wetted Surface , Volume etc., and Usage of Simpson rule
Transverse and Longitudinal Stability and Heel etc.,
E,k
COMR042 MV6504 SHIP CONSTRUCTION At the end of the course the students are expected to have learnt,
Ships terms and stresses in ships.
Primary and Secondary girders used in ships.
Fore-end and After-end arrangements.
Free board and Tonnage of ships
Off shore Technology
e
COMR043 MV6505 MECHANICS OF MARINE MACHINES At the completion of the course the students are expected to have Knowledge of,
Velocity and acceleration of various kinematic linkages
Four bar and slider crank mechanisms using analytical and graphical methods.
Force analysis of Mechanisms and turning moment diagrams and flywheel.
Various parameters of gears and gear trains.
Governors and gyroscopes.
Concept of balancing.
Free and Forced Vibration of Single degree of freedom systems. Two and
e
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Multi Degree Freedom Systems.
COMR044 MV6506 MARINE BOILERS AND STEAM ENGINEEERING At the end of the course the students are expected to have learnt,
Waste heat boilers and boiler mountings.
Operation and Maintenance of boilers.
Construction of steam turbines and steam engines.
The various Method of Lubrication of turbines
The operation and maintenance of steam turbines.
k
COMR045 MV6511 COMPUTER AIDED MARINE ENGINEERING DESIGN AND ANALYSIS LABORATORY
At the end of the course the students are expected to have skill in Design concept, selection of materials and manufacturing considerations while
designing.
Computer Aided Design concepts and applications
Design and Drawing of Fasteners and connection and Power transmission elements.
Design and Drawing of Friction clutches and Brakes.
c
COMR046 MV6512 ELECTRICAL ENGINEERING ELECTRONICS AND MICRO PROCESSOR LABORATORY
On completion of this laboratory course the students would have acquired the skill in
Conducting all types of tests on the Shunt and Series Motors,
Load tests on the Transformers , parallel operation of single phase Transformers
Synchronizing three phase Alternators
understanding the volt-ampere characteristics of Semiconductors, Diodes, Transistors, Field Effect transistor
Operation of Operational Amplifier, Thyrister
Using the 8085 Micro processor
c
COMR047 MV6513 MEASUREMENTS, INSTRUMENTATION AND REFRIGERATION LABORATORY On completion of the experiments in this laboratory course the students are expected to have the knowledge and skills in
using the Different types of measuring equipments instruments
Method of measurements using the instruments
Power measurement using rope, prony brake, mechanical, hydraulic and electrical dynamometers.
Measurement of Vibrations of Machines
Operation and watch keeping duties of Refrigeration plant
c
COMR048 MV6611 MARINE WORKSHOP PRACTICAL AND AFLOAT TRAINING On completion of the work shop training the students are expected to have
C,f,h,j,k,
l
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
acquired the sufficient knowledge In operation, maintenance, repair and refit of Marine machines viz. main
engine, auxiliary engines,
In operation, maintenance , repair and refit of Auxiliaries such as Compressors, Pumps, Steering gear, distillation plant, incinerator, sewage
treatment plant etc.,
In using hand tools, electrical and electronic equipments,
In using Measuring and Testing Equipments for locating faults , malfunctions
In repairing faults and malfunctions
In operation, maintenance, repair and refit of Marine Electrical machines such as Alternators, Generators , Motors, Stabilizers
Overhauling and maintenance of heat exchangers, oil separators, filters etc
Of Fire fighting and Life saving Methods
On maintenance of systems and controls
COMR049 MV6701 MARINE SYSTEM AND MACHINERY DESIGN At the completion of the course the students are expected to have knowledge in,
Using Different types of Bearings.
Design of IC Engine parts and gears.
Design of Marine Machinery systems.
B,e
COMR050 MV6702 MARINE ELECTRICAL TECHNOLOGY On completion of the course the students are expected to have the knowledge of
Different Types of Electrical distribution Systems
Regulations observed onboard ships regarding electrical equipments
Different types of electrical Instruments and Switch Gear used on board Ship
using electrical instruments, to find out and rectify various kinds of faults onboard ships.
Specification of cables and Type of Lighting systems fitted on board
Steering systems
maintenance of electrical equipments, instruments, system components etc.,
K,l
COMR051 MV6703 MARINE VEHICLES PERFORMANCE On Completion of Course the Students are expected to have knowledge about,
Ships Model Tests and Sea Trials .
Various types of Propellers and Rudders
Wave motions and the Ships Vibration s
k
COMR052 MV6704 MARINE AUXILIARY MACHINERY – II At The end of the course the students are expected to have the knowledge on
The Construction, operation, maintenance of incinerator and sewage plant.
The Construction, operation, maintenance of Oily water Separator and Purifiers
The Construction operation, maintenance of sewage plant.
Alignment of shafting system
f
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Dry docking of ships
Maintenance and repair of Equipments , Machinery fitted in ships
COMR053 MV6705 SHIP‟S FIRE PREVENTION AND CONTROL At the end of the course the students will have learnt about,
Fire protection, Detection and Safety systems in ships.
Construction, Operation and Maintenance of Fixed and portable Fire Extinguishers in ships.
Fire prevention and control in oil tankers, LPG / LNG carriers, Chemical tankers, oil rigs, supply vessels
Operation of Fire fighting ships
K,l
COMR054 MV6711 FIRE FIGHTING, CONTROLS AND SIMULATOR LABORATORY On completion of this laboratory course the students are expected to have skills in
Operating Different types of fixed and portable type of fire extinguishers
Fighting different types of fire on board ships
Refilling all types of fire extinguishers
operating different types of fire fighting equipments Viz. fire pumps, hydrants and hoses, couplings, nozzles and International shore connection,
First aid
Operating Hydraulic and Pneumatic control equipment , systems and components
Starting ,Operating , watch keeping, Keeping the machinery with in the operating parameters by controlling the system components and equipments, corrective action during fault , malfunction, and stopping of all machinery and Engines.
C,g,l
COMR055 MV6712 MARINE PROPULSION AND AUXILIARY MACHINERY OVERHAULING LABORATORY
At the end of the laboratory course the students would have the ability to To open ,clean, repair and refit all the equipments associated with Main
Engines, Auxiliary engines and auxiliary machines
C,k,l
COMR056 GE6563 COMMUNICATION SKILLS – LABORATORY BASED At the end of the course, learners should be able to
Take international examination such as IELTS and TOEFL
Make presentations and Participate in Group Discussions.
Successfully answer questions in interviews.
c
COMR057 GE6351 ENVIRONMENTAL SCIENCE AND ENGINEERING At the end of the course the students would have learnt about,
Envirnment and its eco systems
Types of pollution and the method of controlling the pollution
Planning and methods of preserving the natural resources
h
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
.Health and the effect of environment on the health of humans
Methods of disposal of different kind of wastes
COMR058 MV6801 SHIP OPERATIONAL MANAGEMENT AND IMO REQUIREMENTS At the end of the course the students would have learnt about,
Structure and functioning of a shipping company.
Planning and estimating of a voyage besides executing the same.
Marine Insurance as applicable to ship, cargo and crew.
Statutory regulations applicable to shipping industry.
Manning of ships, STCW and Port state control.
Security Training with designated Security Duties as per STCW 2010
H,j,l
COMR059 MV6802 MARINE CONTROL ENGINEERING AND AUTOMATION At the end of the course the students would have learnt,
Basics of Control systems.
Graphical representation of signals.
Electrical, Electronics, Pneumatic and Hydraulic control systems.
Design aspects of control systems on board ships.
f
COMR060 MV6803 SAFETY PRECAUTIONS AND WATCH KEEPING At the end of the course the students are expected to have learnt,
STCW standards of training, requirements of officers and ratings.
Watch-keeping in various ships.
Prevention, rectification and maintenance with respect to trouble shooting of machineries in the Engine Room.
G,k,l
COMR061 MV6811 PROJECT WORK, TECHNICAL PAPER AND VIVA VOCE On completion of the project work, the students would have the ability to 1. Design and fabricate any machinery/equipment/components
2. Conduct experiments
3. Provide alternative solutions to the malfunctioning/faulty equipments.
C,I,j
COMR062 MV6812 COMPREHENSION At the end of the course the students are expected to have knowledge and skills
required to perform the duties of engineer officer on board ships. c
COMR063 MV6001 ADVANCED MARINE HEAT ENGINES On completion of this course the students are expected to have the
Knowledge on the co- generation plant engines
Design Concept of Turbo blowers and compressors
Design Concept of Heat Exchangers
Recent trends in the design changes of IC Engines and Propulsion engines
K,l
COMR064 MV6002 SHIP SAFETY AND ENVIRONMENTAL PROTECTION
K,l
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI An ISO 9001-2008 Certified Institution
Affiliated to Anna University, Chennai & DGS, Mumbai DEPARTMENT OF MARINE ENGINEERING
Learn precautions required for oil tanker operations.
Learn about MARPOL 73/78 requirements and Safe Working Practices.
Learn Life Saving and Survival at Sea techniques.
Learn about IMO, its conventions and statutory certificates of ships.
To understand Personnel Management, Training and Emergency drills of ships
COMR065 MV6003 DOUBLE HULL TANKERS On completion of the course the students are expected to have the knowledge on the
Advantages and superiority of double hull tankers
Design Consideration and Storage of Oil Space
Structural design of double hull and oil handling devices
Economic Aspect of Double Hull tankers
K,l
COMR066 MV6004 SPECIAL DUTY VESSELS AND TYPE OF OPERATION
History of trade of special duty vessels.
Cargo Operations of Oil tankers.
About Inert Gas Systems and Tank Washing Operations of Tankers.
Cargo Operations of Chemical tankers, LPG / LNG vessels.
About rules of classification societies for Cargo Ships and Tankers.
K,l
COMR067 MV6005 SHIP RECYCLING On completion of the course the students are expected to have the knowledge on the
Method of preparation and breaking of the Ships
Hazards involved in while breaking the ships Method of controlling the same
Types of Recycling and designing the ships Regulations in force for Recycling
Ship Breaking Yards in INDIA
K,l
COMR068 MV6006 MARINE CORROSION AND PREVENTION On completion of the course the students are expected to have the knowledge on the
Causes of corrosion
Method of prevention during operation and during construction
Anti-corrosive paints
Corrosion in BOILERS and IC ENGINES
K,l
HOD/MARINE PRINCIPAL
MOHAMED SATHAK ENGINEERING COLLEGE,KILAKARAI-623806B.E. MECHANICALENGINEERING
MISSION:
Imparting quality education to the students and enhancing their skills to makethem globally competitive mechanical engineers
Emphasis on the technical, communication, teamwork and life-long learningskills that graduate engineers need to succeed, in both the workplace andsociety
To mobilize the resources and equip the institution with men and materials of
excellence.
To see that the college becomes pivotal center of service to the rural society
with the latest technology without disturbing their legacy of regional cultural
values.
To develop the college to become a deemed university at the earliest with
facilities for the advanced research and development programs on par with
international standard.
To invite international universities to collaborate with our college on the issues
of common interest of teaching and learning sophistication
VISION:
To provide quality education to rural students and make them employable in
competitive environment
To permeate higher and quality education with value added engineering,
technology and management programs to this part of the fore shaken rural areas
providing all facility available in modern cities and nurture the youths with
international competencies and exemplary level of employability even under
highly competitive environments
SL.NO PROGRAM SPECIFIC OUTCOMES (PSOs)Mechanical Engineering Graduates will be able to:
PSO1 Apply the fundamentals of mathematics, science and engineering knowledge to identify,formulate, design and investigate complex engineering problems of Design of machine elements,Design of transmission systems, Computer aided design
PSO2 Apply appropriate techniques and modern Engineering hardware and software tools inFinite element analysis, Dynamics of machinery, Engineering metrology and measurement toengage in life- long learning and to successfully adapt in multi-disciplinary environments.
PSO3 Understand the impact of Professional Engineering solutions in societal andenvironmental context, commit to Environmental science and engineering, professional ethics andTotal quality management.
MAPPING OF PROGRAM SPECIFIC OBJECTIVES WITH PROGRAMME OUTCOMESA broad relation between the Program Specific Objectives and the outcomes is given in the
following table
PROGRAMSPECIFIC OUTCOMES
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9
PSO1
PSO2
PSO3
PO S.NO PROGRAM OUTCOMESPO 1 An ability to apply knowledge of mathematics and engineering sciences to develop
mathematical models for industrialproblems.PO 2 An ability to identify, formulates, and solve complex engineering problems. with high
degree ofcompetence.PO 3 An ability to design and conduct experiments, as well as to analyze and interpret data
obtained through thoseexperiments.PO 4 An ability to design mechanical systems, component, or a process to meet desired needs
within the realistic constraints such as environmental, social, political and economicsustainability
PO 5 An ability to use modern tools, software and equipment to analyze multidisciplinaryproblems
PO 6 An ability to demonstrate on professional and ethicalresponsibilitiesPO 7 An ability to communicate, write reports and express research findings in a scientific
community.PO 8 An ability to adapt quickly to the global changes and contemporarypractices.PO 9 An ability to engage in life-longlearning
CO Sl. No COURSE OUTCOMES Mapping of courseoutcome with PO
HS6151 - COMMUNICATIVEENGLISH
COME001
Read articles of a general kind in magazinesandnewspapers
Participate effectively in informalconversations; introduce themselves and theirfriends and express opinions in English.
Comprehend conversations and short talksdelivered in English
Write short essays of a general kind andpersonal letters and emails in English.
PO6,PO7,PO8,PO9,PO10,PO11
MA6151 MATHEMATICS – I
COME002
Use both the limit definition and rules ofdifferentiation to differentiate functions.
Apply differentiation to solve maxima andminima problems.
Evaluate integrals both by using Riemannsums and by using the Fundamental Theoremof Calculus
Apply integration to compute multipleintegrals, area, volume, integrals in polarcoordinates, in addition to change of orderand change of variables
Apply various techniques in solvingdifferentialequations
PO1,PO2,PO3,PO4,PO11,PO12
PH6151 - ENGINEERING PHYSICS
COME003
the students will gain knowledge on thebasics of properties of matter and itsapplications
the students will acquire knowledge on theconcepts of waves and optical devices andtheir applications in fibre optics
the students will have adequate knowledge onthe concepts of thermal properties ofmaterials and their applications in expansionjoints and heat exchangers
the students will get knowledge on advancedphysics concepts of quantum theory and itsapplications in tunneling microscopes
the students will understand the basics ofcrystals, their structures and different crystal
growth techniques.
PO1,PO2,PO3,PO4,PO11,PO12
GE6162 ENGINEERING PRACTICES LABORATORY
COME004
Ability to fabricate carpentry components andpipe connections including plumbing works
Ability to use welding equipments to join thestructures.
Ability to fabricate electrical and electronicscircuits.
PO1,PO10,PO12
GE6163 PHYSICS AND CHEMISTRY LABORATORY – I
COME005
The hands on exercises undergone by thestudents will help them to apply physicsprinciples of optics and thermal physics toevaluate engineering properties of materials.
The students will be outfitted with hands-onknowledge in the quantitative chemicalanalysis of water quality related parameters
PO1,PO2,PO3,PO4,PO11,PO12
HS6251 TECHNICAL ENGLISH II
COME006
Speak convincingly, express their opinionsclearly, initiate a discussion, negotiate, argueusing appropriate communicative strategies.
write effectively and persuasively andproduce different types of writing such asnarration, description, exposition andargument as well as creative, critical,analytical and evaluative writing
read different genres of texts, infer impliedmeanings and critically analyse and evaluatethem for ideas as well as for method ofpresentation.
listen/view and comprehend different spokenexcerpts critically and infer unspoken andimplied meanings
PO6,PO7,PO8,PO9,PO10,PO11
MA6251 MATHEMATICS – II
COME007
The subject helps the students to develop thefundamentals and basic concepts in vectorcalculus, ODE, Laplace transform andcomplex functions. Students will be able tosolve problems related to engineeringapplications by using these techniques.
PO1,PO2,PO3,PO4,PO11,PO12
PH6251 ENGINEERING PHYSICS – II
COME008
The students will have the knowledge onphysics of materials and that knowledge willbe used by them in different engineering andtechnology applications
PO1,PO2,PO3,PO4,PO11,PO12
CY6151 ENGINEERING CHEMISTRY
COME009
The knowledge gained on engineeringmaterials, fuels, energy sources and watertreatment
techniques will facilitate better understanding of engineering processes and
applications for further learning
PO1,PO2,PO3,PO4,PO11,PO12
GE6151 COMPUTER PROGRAMMING
COME010
Develop algorithmic solutions to simplecomputational problems
Read, write, execute by hand simple Pythonprograms.
Design C Programs for problems Write and execute C programs fo simple
applications
PO1,PO2,PO3,PO4,PO5,PO11,PO12
GE6152 ENGINEERING GRAPHICS
COME011
Perform free hand sketching of basicgeometrical constructions and multiple viewsof objects.
Do orthographic projection of lines and planesurfaces.
Draw projections and solids and developmentof surfaces
Prepare isometric and perspective sections ofsimple solids
Demonstrate computer aided drafting
PO1,PO10,PO12
GE6161 COMPUTER PRACTICES LABORATORY
COME012
Apply good programming design methods forprogram development.
Design and implement C programs for simpleapplications
Develop recursive programs.
PO1,PO2,PO3,PO4,PO5,PO11,PO12
CY6251 ENGINEERING CHEMISTRY-II
COME013
The knowledge gained on engineeringmaterials, fuels, energy sources and watertreatment techniques will facilitate betterunderstanding of engineering processes andapplications for further learning.
PO1,PO2,PO3,PO4,PO11,PO12
MA8353 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS
COME014
Understand how to solve the given standardpartial differentialequations.
Solve differential equations using Fourierseries analysis which plays a vital role inengineering applications
Appreciate the physical significance ofFourier series techniques in solving one andtwo dimensional heat flow problems and onedimensional waveequations.
Understand the mathematical principles ontransforms and partial differential equationswould provide them the ability to formulateand solve some of the physical problemsofengineering
Use the effective mathematical tools for thesolutions of partial differential equations byusing Z transform techniques for discretetimesystems.
PO1, PO2, PO3 ,PO8, PO9
ME8391ENGINEERINGTHERMODYNAMICS
COME015
Apply the first law of thermodynamics forsimple open and closed systems under steady
and unsteady conditions Apply second law of thermodynamics to open
and closed systems and calculate entropy andavailability
Apply Rankine cycle to steam power plantand compare few cycle improvementmethods
Derive simple thermodynamic relations ofideal and real gases
Calculate the properties of gas mixtures andmoist air and its use in psychometric processes
PO1, PO2,PO3,PO7,PO8
ME8394 FLUID MECHANICS AND MACHINERY
COME016
Apply mathematical knowledge to predict theproperties and characteristics of afluid.
Can analyse and calculate major andminor losses associated with pipe flowin piping networks.
Can mathematically predict the nature ofphysicalquantities
Can critically analyse the performanceofpumps
Can critically analyse the performanceofturbines.
PO1, PO2, PO3
ME8351 Manufacturing Technology – I
COME017
Explain different metal casting processes,associated defects, merits and demerits
Compare different metal joining processes. Summarize various hot working and cold
working methods of metals. Explain various sheet metal making
processes. Distinguish various methods of
manufacturing plastic components.
PO3, PO4,PO5,PO6,PO8,PO9
EE8353ELECTRICAL DRIVESANDCONTROLS
COME018
Upon Completion of this subject, thestudents can able to explain differenttypes of electrical machines andtheirperformance
NIL
MA8452 STATISTICS AND NUMERICAL METHODS
COME019
Apply the concept of testing of hypothesis forsmall and large samples in real lifeproblems.
Apply the basic concepts of classifications ofdesign of experiments in the fieldofagriculture.
Appreciate the numerical techniques ofinterpolation in various intervals and applythe numerical techniques of differentiationand integration for engineeringproblems.
Understand the knowledge of varioustechniques and methods for solving firstand second order ordinarydifferentialequations.
Solve the partial and ordinarydifferential equations with initial andboundary conditions by using certaintechniques withengineeringapplications
PO1,PO2
ME8492 KINEMATICS OF MACHINERY
COME020
Discuss the basics of mechanism Calculate velocity and acceleration in simple
mechanisms Develop CAM profiles Solve problems on gears and gear trains Examine friction in machine elements
PO1,PO2,PO3,PO5
ME8451 MANUFACTURING TECHNOLOGY – II
COME021
Explain the mechanism of material removalprocesses.
Describe the constructional and operationalfeatures of centre lathe and other specialpurpose lathes.
Describe the constructional and operationalfeatures of shaper, planner, milling, drilling,sawing and broaching machines.
Explain the types of grinding and other superfinishing processes apart fromgearmanufacturing processes.
Summarize numerical control of machinetools and write a part program.
PO1,PO3,PO4,PO5,PO8,PO9
ME8491 ENGINEERING METALLURGY
COME022
Explain alloys and phase diagram, Iron-Ironcarbon diagram and steel classification.
Explain isothermal transformation,continuous cooling diagrams anddifferent heat treatment processes.
Clarify the effect of alloying elements onferrous and non-ferrous metals
Summarize the properties and applications ofnon metallic materials.
Explain the testing of mechanical properties. .
PO7
CE8395 STRENGTH OF MATERIALS FOR MECHANICAL ENGINEERS
COME023
Understand the concepts of stress and strainin simple and compound bars, the importanceof principal stresses and principalplanes.
Understand the load transferring mechanismin beams and stress distribution due toshearing force and bendingmoment.
Apply basic equation of simple torsion indesigning of shafts and helicalspring
Calculate the slope and deflection in beamsusing differentmethods.
Analyze and design thin and thick shells forthe applied internal and externalpressures.
PO2,PO3,PO4
ME8493 THERMAL ENGINEERING – I
COME024
Apply thermodynamic concepts to differentair standard cycles and solve problems.
Solve problems in single stage and multistageair compressors
Explain the functioning and features of ICengines, components and auxiliaries.
Calculate performance parameters of ICEngines.
Explain the flow in Gas turbines and solveproblems.
PO2,PO5
ME8595 THERMAL ENGINEERING – II
COME025
Solve problems in Steam Nozzle Explain the functioning and features of
different types of Boilers and auxiliaries and calculate performance parameters. Explain the flow in steam turbines, draw
velocity diagrams for steam turbines andsolve
problems. Summarize the concept of Cogeneration,
Working features of Heat pumps and Heat exchangers Solve problems using refrigerant table / charts
and psychrometric charts
PO2,PO5,PO8
ME8593 DESIGN OF MACHINE ELEMENTS
COME026
Explain the influence of steady and variablestresses in machine component design.
Apply the concepts of design to shafts, keysand couplings.
Apply the concepts of design to temporaryand permanent joints.
Apply the concepts of design to energyabsorbing members, connecting rod andcrank shaft.
Apply the concepts of design to bearings. Explain the influence of steady and variable
stresses in machine component design.
PO2,PO4,PO7,PO8,PO9
ME8501 METROLOGY AND MEASUREMENTS
COME027
Describe the concepts of measurements toapply in various metrological instruments
Outline the principles of linear and angularmeasurement tools used for industrial
applications Explain the procedure for conducting
computer aided inspection Demonstrate the techniques of form
measurement used for industrial components Discuss various measuring techniques of
mechanical properties in industrialapplications
PO3,PO4,PO7,PO8
ME8594 DYNAMICS OF MACHINES
COME028
Calculate static and dynamic forces ofmechanisms.
Calculate the balancing masses and theirlocations of reciprocating and rotatingmasses.
Compute the frequency of free vibration. Compute the frequency of forced vibration
and damping coefficient. Calculate the speed and lift of the governor
and estimate the gyroscopic effect on automobiles, ships and airplanes.
PO2,PO3,PO5,PO7,PO9
ME8651 DESIGN OF TRANSMISSION SYSTEMS
COME029
apply the concepts of design to belts, chainsand rope drives.
apply the concepts of design to spur, helicalgears.
apply the concepts of design to worm andbevel gears.
apply the concepts of design to gear boxes . apply the concepts of design to cams, brakes
and clutches apply the concepts of design to belts, chains
and rope drives.
PO2,PO5,PO7,PO9
ME8691 COMPUTER AIDED DESIGNAND MANUFACTURING
COME030
Explain the 2D and 3D transformations,clipping algorithm, Manufacturing modelsand Metrics
Explain the fundamentals of parametriccurves, surfaces and Solids
Summarize the different types of Standardsystems used in CAD
Apply NC & CNC programmingconcepts to develop part programmefor Lathe & Milling Machines
Summarize the different types of techniquesused in Cellular Manufacturing and FMS
PO2,PO3,PO5
ME8693 HEAT AND MASS TRANSFER
COME031
Apply heatconductionequationstodifferentsurfaceconfigurationsundersteady
state and transient conditions and solveproblems
Apply free and forced convective heattransfer correlations to internal and external
flows through/over various surfaceconfigurations and solve problems
Explain the phenomena of boiling andcondensation, apply LMTD and NTUmethods
of thermal analysis to different types of heatexchanger configurations and solveproblems
Explain basic laws for Radiation and applythese principles to radiative heat transfer
between different types of surfaces to solveproblems
Apply diffusive and convective masstransfer equations and correlations to solve
problems for different applications
PO2, PO3, PO4, PO8, PO9
ME8692FINITE ELEMENT ANALYSIS
COME032
Summarize the basics of finite elementformulation.
Apply finite element formulations to solveone dimensional Problems.
Apply finite element formulations to solvetwo dimensional scalar Problems.
Apply finite element method to solve twodimensional Vector problems.
Apply finite element method to solveproblems on iso parametric element anddynamic Problems.
PO2,PO4,PO9
ME8694HYDRAULICS AND PNEUMATICS
COME033
Explain the Fluid power and operation ofdifferent types of pumps.
Summarize the features and functions ofHydraulic motors, actuators and Flowcontrol
valves Explain the different types of Hydraulic
circuits and systems Explain the working of different pneumatic
circuits and systems Summarize the various trouble shooting
methods and applications of hydraulic andpneumatic systems.
PO2,PO4,PO8
ME8792POWER PLANT ENGINEERING
COME034
Explain the layout, construction andworking of the components inside a thermalpower plant.
Explain the layout, construction andworking of the components inside a Diesel,Gas
and Combined cycle power plants. Explain the layout, construction and
working of the components inside nuclearpower plants.
Explain the layout, construction andworking of the components insideRenewable energy power plants.
Explain the applications of power plantswhile extend their knowledge to powerplant economics and environmentalhazards and estimate the costs of electricalenergy production.
PO2,PO3,PO4,PO8
ME8793PROCESS PLANNING AND COST ESTIMATION
COME035
select the process, equipment and tools forvarious industrial products.
prepare process planning activity chart. explain the concept of cost estimation. compute the job order cost for different type
of shop floor. calculate the machining time for various
machining operations.PO2,PO4
ME8791MECHATRONICS
COME036
Discuss the interdisciplinary applications ofElectronics, Electrical, Mechanical and
Computer Systems for the Control ofMechanical, Electronic Systems and sensortechnology.
Discuss the architecture of Microprocessorand Microcontroller, Pin Diagram,Addressing
Modes of Microprocessor andMicrocontroller.
Discuss Programmable Peripheral Interface,Architecture of 8255 PPI, and various device
interfacing Explain the architecture, programming and
application of programmable logiccontrollers
to problems and challenges in the areas ofMechatronic engineering.
Discuss variousActuatorsandMechatronicssystem using the knowledge andskills
acquired through the course and also fromthe given case studies
PO2,PO3,PO5,PO8,PO9
MG8591 PRINCIPLES OF MANAGEMENT
COME037
Upon completion of the course,students will be able to haveclear understanding of managerialfunctions like planning, organizing,staffing, leading & controlling andhave same basic knowledge oninternational aspect ofmanagement
PO6,PO9
BE8261BASIC ELECTRICAL, ELECTRONICS AND INSTRUMENTATIONENGINEERING LABORATORY
COME038
Ability to determine the speedcharacteristic of differentelectricalmachines
Ability to design simple circuits involvingdiodes andtransistors
Ability to use operationalamplifiers
PO3
ME8361MANUFACTURING TECHNOLOGY LABORATORY–I
COME039
Demonstrate the safety precautions exercisedin the mechanical workshop.
Make the workpiece as per given shape andsize using Lathe.
Join two metals using arc welding. Use sheet metal fabrication tools and make
simple tray and funnel. Use different moulding tools, patterns and
prepare sand moulds.
PO3,PO4,PO5,PO6,PO8,PO9
EE8361ELECTRICAL ENGINEERINGLABORATORY
COME040
Ability to perform speed characteristic ofdifferent electricalmachine
PO3
HS8381INTERPERSONAL SKILLS/LISTENING & SPEAKING
COME041
Listen and respondappropriately. Participate in groupdiscussions Make effectivepresentations Participate confidently and appropriately in
conversations both formal andinformal
PO3
ME8462MANUFACTURING TECHNOLOGY LABORATORY – II
COME042
use different machine tools to manufacturinggears
Ability to use different machine tools tomanufacturing gears.
Ability to use different machine tools forfinishing operations
Ability to manufacture tools using cuttergrinder
PO3
CE8381STRENGTH OF MATERIALS AND FLUID MECHANICS AND MACHINERY LABORATORY
COME043
Ability to perform Tension, Torsion,Hardness, Compression, andDeformation test onSolid materials. PO3
HS8461ADVANCED READING AND WRITING
ME8511 KINEMATICS AND DYNAMICS LABORATORY
COME045
Explain gear parameters, kinematics ofmechanisms, gyroscopic effect and working oflab
equipments. Determine mass moment of inertia of
mechanical element, governor effort and rangesensitivity, natural frequency and dampingcoefficient, torsional frequency, critical speedsof
shafts, balancing mass of rotating andreciprocating masses, and transmissibility ratio.
PO2 PO3 PO4
ME8512 THERMAL ENGINEERING LABORATORY
COME046
conduct tests on heat conduction apparatus andevaluate thermal conductivityof
materials. conduct tests on natural and forced convective
heat transfer apparatus and evaluate heat transfer coefficient. conduct tests on radiative heat transfer apparatus
and evaluate StefanBoltzmann constant and emissivity. conduct tests to evaluate the performance of
parallel/counter flow heat exchanger apparatus and reciprocating air compressor.
PO2 PO3
ME8513 METROLOGY AND MEASUREMENTS LABORATORY
COME047
Measure the gear tooth dimensions, angle usingsine bar, straightness and flatness,
thread parameters, temperature usingthermocouple, force, displacement, torque andvibration.
Calibrate the vernier, micrometer and slipgauges and setting up the comparator for the
inspection.
PO2 PO3 PO4 PO7
ME8681 CAD / CAM LABORATORY
COME044
Write different types ofessays. Write winning jobapplications. Read and evaluate textscritically. Display critical thinking in various
professionalcontexts
PO6,PO9
COME048
Draw 3D and Assembly drawing using CADsoftware
Demonstrate manual part programming with Gand M codes using CAM
PO2 PO3 PO6
ME8682 DESIGN AND FABRICATION PROJECT
COME049
design and Fabricate the machine element or themechanical product.
demonstrate the working model of the machineelement or the mechanical product.
PO6 PO7 PO9
HS8581 PROFESSIONAL COMMUNICATION
COME050
Make effectivepresentations Participate confidently in GroupDiscussions. Attend job interviews and be successful inthem. Develop adequate Soft Skills required for
theworkplace
PO4 PO7 PO6 PO5 PO9
ME8711SIMULATION AND ANALYSIS LABORATORY
COME051
Simulate the working principle of airconditioning system, hydraulic andpneumatic cylinder and cam followermechanisms using MATLAB.
analyze the stresses and strains induced inplates, brackets and beams and heat transfer
Problems. Calculate the natural frequency and mode shape
analysis of 2D components and beams.
PO5 PO7
ME8781 MECHATRONICS LABORATORY
COME052
Demonstrate the functioning of mechatronicssystem with various pneumatic, hydraulic
and electrical systems. Demonstrate the functioning of control systems
with the help of PLC and microcontrollers.
PO2 PO3 PO5 PO8 PO9
ME8811 PROJECT WORK
COME053
On Completion of the project workstudents will be in a position to take upany challenging practical problems andfind solution by formulatingpropermethodology.
PO2 PO3 PO6 PO7
GE8292 ENGINEERINGMECHANICS
COME054 illustrate the vectorial and scalar representationof forces andmoments
analyse the rigid body inequilibrium evaluate the properties of surfaces and solids calculate dynamic forces exerted in rigidbody determine the friction and the effects by the laws
offriction
PO1 PO2 PO7 PO8,PO9
MOHAMED SATHAK ENGINEERING COLLEGE
DEPARTMENT OF CHEMICAL ENGINEERING- REGULATION – 2013
B.TECH-CHEMICAL ENGINEERING
DEPARTMENT VISION :To be a leading Chemical Engineering Department in the state and be known nationally and worldwide for its qualityeducation and research and to produce graduates who address major societal issues and solve technical challenges faced bychemical and associated industries through environmental friendly technologiesDEPARTMENT MISSION :To instill students with a strong fundamental knowledge to meet the needs of a rapidly changing technologicalenvironment in process development and equipment design.To provide students with quality engineering education, so as to enable them to address the needs of chemicalengineering profession in particular and society in general.To develop adoptable engineers with entrepreneurship and leadership qualities to solve scientific andenvironmental challenges keeping in mind the safety and ethical concerns.
PO SL.NO PROGRAM OUTCOMES
The graduates of chemical engineering programme would have
PO 1 Ability to apply knowledge of mathematics, science, and engineering in core industry
PO 2 Ability to design and conduct experiments, as well as to analyze and interpret data
PO 3 Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic,environmental, social, political, ethical, health and safety, manufacturability, and sustainability
PO 4 Ability to identify, formulate, and solve engineering problems related to chemical industry
PO 5 Understanding of professional and ethical responsibility
PO 6 Recognition of the need and ability to engage in life-long learning
PSOSL.NO
PROGRAM SPECIFIC OUTCOMES (PSOs)
PSO1 Design solutions for complex engineering problems and design system components or processes that meet thespecified needs with appropriate consideration for the public health and safety, and the cultural, societal, andenvironmental considerations.
PSO2 The chemical engineering graduates have the skills and awareness to become socially, ethically and morallyresponsible individual for maintaining sustainability in our community which is facing challenges related to thefield of chemical engineering
COURSE NAME COURSE OUTCOMEMAPPING OF
PO’SHS6151-TechnicalEnglish-I
Will have a good listening skills for academic andProfessional purposes. Will have reading habit and effective reading skills. Willbe familiarizing students with different rhetorical function so scientific English.
PO1 PO6
MA6151-Mathematics-I
This course equips students to have basic knowledge and understanding in onefields of materials, integral and differentialcalculus.
PO1 PO2
PH6151-EngineeringPhysics-I
The students will have knowledge on the basics of physics related to properties ofmatter, optics, acoustics etc., and they will apply these fundamental principles tosolve practical problems related to materials used for engineering applications.
PO1 PO2 PO4
CY6151-EngineeringChemistry-I
The knowledge gained on polymer chemistry, thermodynamics, spectroscopy,phase rule and nano materials will provide a strong platform to understand theconcepts on these subjects for further learning.
PO3 PO4 PSO1
GE6151-ComputerProgramming
At the end of the course, the student should be able to: Design C Programs for problems. Write and execute C programs for simple applications.
PO2 PO3
GE6152 -Engineering Graphics
On Completion of the course the student will be able to Perform free hand sketching of basic geometrical constructions and Multiple views of objects. Do orthographic projection of lines and plane surfaces. Draw projections and solids and development of surfaces. Prepare isometric and perspective sections of simple solids. Demonstrate computer aided drafting.
PO2 PO3
GE6161-ComputerPractice Laboratory
At the end of the course, the student should be able to: Apply good programming design methods for program development. Design and implement C programs for simple applications. Develop recursive programs.
PO2 PO3
GE6162-EngineeringPractices Laboratory
Ability to fabricate carpentry components and pipe connections including Plumbing works. Ability to use welding equipments to join the structures.
PO4
Ability to fabricate electrical and electronics circuits.GE6163-Physics andChemistryLaboratory-I
The hands on exercises undergone by the students will help them toapply physics principles of optics and thermal physics to evaluate engineeringproperties of materials.
PO2 PO4 PSO1
HS6251- TechnicalEnglish-II
Learners should be able to speak convincingly, express their opinions clearly, initiate a discussion, Negotiate, argue using appropriate communicative strategies. write effectively and persuasively and produce different types of writing such as narration, description, exposition and argument as well as creative, critical, analytical and evaluative writing. read different genres of texts, infer implied meanings and critically analyse and evaluate them for ideas as well as for method of presentation. listen/view and comprehend different spoken excerpts critically and infer unspoken and implied meanings.
PO1 PO6
MA6251-Mathematics -II
The subject helps the students to develop the fundamentals and basic concepts invector calculus, ODE, Laplace transform and complexfunctions. Students will be able to solve problems related to engineeringapplications by using these techniques.
PO1 PO2
PH6251 –Engineering Physics-II
The students will have the knowledge on physics of materials and thatknowledge will be used by them in different engineering and technologyapplications
PO1 PO2 PO4
CY6251- EngineeringChemistry-II
The knowledge gained on engineering materials, fuels, energy sources and watertreatment techniques will facilitate better understanding ofengineering processes and applications for further learning.
PO3 PO4 PSO1
GE6252- BasicElectrical andElectronicsEngineering
Ability to identify the electrical components explain the characteristics ofelectrical machines.
Ability to identify electronics components and use of them to designcircuits.
PO 4
GE6253- EngineeringMechanics
Ability to explain the differential principles applies to solve engineering Problems dealing with force, displacement, velocity and acceleration. Ability to analyse the forces in any structures.
PO1
Ability to solve rigid body subjected to dynamic forces.
GE6262- Physics andChemistry Laboratory– II
The students will have the ability to test materials by using their knowledge ofapplied physics principles in optics and properties ofMatterThe students will be conversant with hands-on knowledge in the quantitativechemical analysis of water quality related parameters, corrosion measurement andcement analysis.
PO2 PO4 PSO1
GE6263-ComputerProgrammingLaboratory
At the end of the course the students should be able to: Use Shell commands Design of Implement Unix shell scripts Write and execute C programs on Unix
PO2 PO3
GE6264-BasicElectrical andElectronicsLaboratory
An ability to apply the basic knowledge of electrical and electronicsprinciples in finding out the efficiencies of various electrical components
ability to fabricate electrical and electronics circuits ability to perform fluorescent wiring and staircase wiring.
PO4
MA6351-Transformsand PartialDifferential Equations
To introduce Fourier series analysis which is central to many applicationsin
engineering apart from its use in solving boundary value problems. To acquaint the student with Fourier transform techniques used in wide
variety of situations. To introduce the effective mathematical tools for the solutions of partial
differential equations that model severalphysical processes and to develop Ztransform techniques for discrete timesystems.
PO1 PO2
EE6351-ElectricalDrives and Controls
Able to understand the basic principles of electrical engineering in drives usingswitch-mode converters and pulse width modulation to synthesize the voltages indc and ac motor drives
PO4
CH6301-OrganicChemistry
At the end of the course students will be in a position to have knowledge onvarious reaction mechanism, preparation of organic compounds and theirproperties. This will be a precursor for the study on Chemical Reaction
PO3 PSO2
Engineering
CH6302- Mechanicsof Solids
Able to model and analyze the behavior of structural and machine componentssubjected to various loading and support conditions based on principles ofequilibrium and material constitutional relationships.
PO3 PO4
CH6303-PhysicalChemistry
Ability to solve quantitative chemistry problems and demonstrate reasoningclearly and completely.Ability to integrate multiple ideas in the problem solving process.Ability to describe, explain and model chemical and physical processes at themolecular level in order to explain macroscopic properties.Ability to apply important theories such as the Kinetic Molecular Theory of Gasesor the Quantum Mechanical Theory of the Atom to the solution of generalchemistry problems.
PO3 PO4
CH6304- FluidMechanics
Will be able to solve problems related to the fundamental principles of fluidmechanics.An ability to analyze a control volume by developing fundamental principlessuch as the linear momentum equation and energy equation in the treatment ofthe control volume.An ability to compare fundamental Reynolds Number and fluid flow behaviorobservation in pipe flow.Able to apply Buckingham theorem to determine a suitable set of dimensionlessparameters.Able to solve turbo machinery problems from the standpoint of fluid mechanics.
PO1 PO2 PSO2
CH6311- OrganicChemistry Laboratory
Able to utilize mathematical knowledge gained from general chemistry toperform common calculations, including mass balance, limiting reagent, andpercent yield.Ability to engage in safe laboratory practices by handling laboratory glassware,equipment, and chemical reagents appropriately, using general guidelines andbasic knowledge about the common hazards associated with them in an organicchemistry laboratory.Will be able to maintain an appropriate scientific notebook using notational anddescriptive content containing MSDS information on relevant chemical reagents,experimental procedure followed, data collected, and observations made duringthe experimental process.
PO3 PSO2
CH6312- PhysicalChemistry Laboratory
An ability to use the techniques, skills, and modern engineering tools necessaryfor engineering practice. To improve the team work ability of the student foradapting themselves in the ever changing environment
PO3 PO4
MA6468- Probabilityand Statistics
Will have a skill on Probability and Queuing Theory. Will help the students tobetter understand the engineering subjects. Will be useful during the project work PO1 PO2 PO4
CH6401- ChemicalProcess Industries-I
Ability to integrate various courses such as chemistry, unit operations, mechanicaloperation, stoichiometry etc., and to give the young chemical engineers somecomprehension on various fields of production into which he will enter or withwhich he will be affiliated during the course of study or aftercompletion of the study.
PO1 PO4 PSO2
CH6402- ChemicalEngineeringThermodynamics-I
Able to define units of pressure, temperature, density, mass, and moles, SI andEnglish system, and use conversions.Able to use thermodynamic tables and diagrams and apply equations of state,such as the Ideal Gas Law.
Ability to understand the difference between steady-state and transient processes,open and closed systems.Able to describe the meaning of specific volume, enthalpy, and internal energy,and how to obtain them from thermodynamic tables and diagrams.
Ability to identify the difference between heat and work, isentropic andisenthalpic processes.
PO1 PO2
CH6403-ChemicalProcess Calculations
Will be able to demonstrate a broad and integrated knowledge of mass & energybalances and their relevance to the chemical process industries.Ability to solve simple problems involving combined mass & energy balancesfor chemical processes
PO1 PO2 PO3PSO2
CH6404- MechanicalOperations
Upon completion of this course, the students would understand about solids, theircharacterization, handling and the various processes involving solids. Thestudents would have exposure to basic theory, calculations and machineryinvolved in various solid handling operations.
PO2 PO3
GE6351-EnvironmentalScience andEngineering
Will be able to explain the basic concepts of environmental science.Will be able to learn a variety of skills necessary to function as an environmentalscientist in the workplace or as a candidate for an advanced degree.Will be able to develop scientific critical thinking skills.
PO3 PSO1 PSO2
Will be able to demonstrate the ability to articulate verbally and in writing,knowledge of environmental science, its methodologies and issues.Will be able to develop an awareness of the impact that environmental sciencehas had on society at large ,as well as the interactions of environmental sciencewith other disciplines such as philosophy, literature and art.
CH6411- TechnicalAnalysis Laboratory
To have a thorough understanding on the estimation and analysis of chemicalCompounds PO2 PO3 PO4
CH6412-FluidMechanicsLaboratory
Will be able to measure and differentiate between absolute, differential, andgauge pressureAbility to make basic pressure and velocity measurementsAbility to utilize elementary flow visualization toolsAble to deduce fluid physics information from flow visualizationAbility to calculate flow characteristics such as Reynolds number, friction factor,pressure and drag coefficient from laboratory measurements
PO1 PO2 PSO2
MA6459- NumericalMethods
Will be able to understand what a numerical method is.Will be able to understand the reasons for using numerical methods
PO1 PO2 PO4
CH6501-Instrumental Methodsof Analysis
Will have knowledge of chemical analysis and instrumental analysis.Will have knowledge of organic and inorganic chemistry.Will have knowledge of atomic and molecular structure, thermodynamics,kinetics, quantum mechanics and spectroscopy.Ability to synthesize and characterize, by chemical or physical means, bothorganic and inorganic compounds.Ability to perform both qualitative and quantitative analysis by chemical andinstrumental methods.Ability to perform experiments to obtain fundamental thermodynamic and kineticdata on chemical systems.
PO2 PO3
CH6502- Chemicalprocess Industries – II
Ability to integrate various courses such as chemistry, unit operations, mechanicaloperation, stoichiometry etc., and to give the young chemical engineers somecomprehension on various fields of production into which he will enter or withwhich he will be affiliated during the course of study or aftercompletion of the study.
PO1 PO4 PSO2
CH6503 Chemical Will be well versed with the behaviour of fluids under PVT conditions PO1 PO2
EngineeringThermodynamics II
and also apply them for practical purpose.Will be able to deal with power production and refrigeration processes.Will have a comprehensive exposition to theory and application ofsolution thermodynamics
CH6504 -HeatTransfer
Will be able to calculate heat transfer rate by conduction, different types ofconvection and by radiation using classical models for these phenomena.
Will able to size and calculate the performance of different types of heatexchangers.Will be able to understand the basics of numerical calculation methods forconduction and will be able to design computer programs for solving suchproblems
Ability to gain knowledge in various heat transfer methodology in processengineering and to design heat transfer equipments such as furnace, boilers, heatexchangers evaporation.
PO2 PO3 PO4
CH 6505 MassTransfer-I
Will have a in depth knowledge on the types of Mass Transfer through a drivingforce in the same fashion as temperature differences as driving force for heattransfer.Able to develop an elementary knowledge on fluid flow, heat transfer andstoichiometry
PO2 PO3 PO4
GE6563-CommunicationSkills LaboratoryBased
Able to develop effective speaking and listening skills in English.Ability to develop their soft skills and interpersonal skills, which will make thetransition from college to workplace smoother and help them excel in their job.To enhance the performance at Placement Interviews, Group Discussions andother recruitment exercises.
PO1 PO6
CH6511- ProcessEquipment Design- I
Ability to develop skills to design and install process equipments used widely in achemical Industry.
PO1 PO2 PO3 PO4
CH6512- MechanicalOperationsLaboratory
an ability to use the techniques, skills, and modern engineering tools necessaryfor engineering practice. To improve the team work ability of the student foradapting themselves in the ever changing environment
PO2 PO3
CH6601 -EnergyEngineering
Able to understand scope of energy engineering as a discipline and career path.Ability to quantify typical energy consumption in transport, in buildings and forappliances
PO3 PSO1 PSO2PO5
Able to quantify how much energy is available from renewable sources.Able to understand how deep energy efficiency improvements may be achieved.Ability to build energy plan based on consumption and supply.
CH6602- ChemicalReactionEngineering- I
Able to gain knowledge on the selection of right type of reactor for therequired reaction
PO1 PO2 PO3
CH6603- MassTransfer-II
Will have developed a sound knowledge on the types of Mass Transferthro’ a driving force in the same fashion as temperature differences asdriving force for heat transfer.Will have developed an elementary knowledge on fluid flow, heattransfer and stoichiometry.
PO2 PO3 PO4
CH6604- MaterialsScience andTechnology
Will have a skill on the various properties of materials and will be able todescribe the various terms used in materials engineering. PO3 PO4
CH6605 - ProcessInstrumentationDynamics andControl
Ability to gain knowledge in designing a control system and identifyingthe alternative control configuration for a given process plant or entireplant.Will be familiar with the control mechanism before attempting to tackleprocess control problems.
PO1 PO2 PO3PSO2
CH6611- HeatTransfer Laboratory
Will have a wide knowledge on the conductive, convective and radiative type ofheat transfer under different operative conditions and also the selection ofinstruments to measure the heat.
PO2 PO3 PO4
CH6612 -ProcessEquipment Design- II
Able to become a design engineer on process equipments design.Will become a expert in equipments drawing.
PO1 PO2 PO3 PO4
CH6613 -MassTransfer Laboratory
Able to gain knowledge on the determination of important data for the design andoperation of the process equipments. PO3 PO4
CH6701- ChemicalReactionEngineering- II
Will have ability in deciding and designing the type of Reactors that arenecessary for a particular type of reaction in an Industry.Able to learn mechanism and control of several types of reactions.
PO1 PO2 PO3
CH6702- TransportPhenomena
Able to solve steady-state problems in counter-diffusion and uni-molal Uni-directional diffusion using Fick’s first law.Ability to understand the theoretical basis of convective heat-transfer and mass-transfer and
PO1 PO4
to use the analogies between momentum, heat, and mass transfer to interrelaterateConstants.Able to use individual mass transfer coefficients to obtain overall mass transfercoefficient in multi-phase systems and apply in a variety of design applications.
CH6703- ChemicalProcess Plant Safety
To receive the directions from the guide, on library reading, laboratorywork, computer analysis or field work as assigned by the guide and alsoto present in periodical seminars on the progress made in the project. Eachstudent shall finally produce a comprehensive report covering backgroundinformation, literature survey, problem statement, project work details andconclusion. an ability to develop new software's and solve the networkingproblems themselves in ever changing environment
PO3 PO5 PO6
CH6704- ProcessEconomics
Will be able to understand the principles of cost estimation, feasibility analysis,management, organization and quality control.Will enable the students to perform as efficient managers
PO4
CH6705-BiochemicalEngineering
Ability to design Bio-chemical reactors with proper knowledge on EnzymeEngineering PO3 PO4
CH6711- ChemicalReaction EngineeringLaboratory
Ability to gain knowledge in the design of reactors PO1 PO2 PO3
CH6712 -Seminarand Comprehension
Able to develop the overall level of proficiency and the scholastic attainment ofthe student in the various subjects studied during the degree course.
PO3 PO5 PO6
CH6713- ProcessControl Laboratory
Ability to gain knowledge on the development and use of right type of controldynamics for process control under different operative conditions
PO4
CH6811- ProjectWork
Ability to gain knowledge in the design of reactors PO1 PO4 PSO2
CH6001- FoodTechnology
An ability to design processing equipments for Food IndustriesPO2 PO3 PO5
PSO1CH6002 -FluidizationEngineering
Upon completion of this course, the students will have the knowledge onfluidization phenomenon, behavior of fluidized beds and industrial applications. PO3 PO3
CH6003- ProcessOptimization
To have the ability when faced with a process optimization problem, to be able toadvance to a solution by specifying the cost function and selecting the
PO1 PO2
optimization approach, whilst also incorporating physical process characteristicsthat lead to constraints.
CH6004 - AirPollution and Control
Ability to identify the major sources and sinks of air pollutants.Will be able to understand the key chemical transformations of air pollution.Ability to relate air pollution regulation and its scientific basis and to describeengineering solutions to air pollution problems.
PO 5 PSO1 PSO2
CH6005- GreenChemistry andEngineering
Upon completion of this course, the students would understand the fundamentalsof green Chemical Engineering and apply these principles duringthe design, retrofit and management of chemical processes for a more sustainablechemical manufacturing.
PO3 PSO1
CH6006-EnvironmentalEngineering
Upon completion of this course, the students would understand the importance ofenvironmental audit, concepts behind the methodologies to control pollution, theimportance of recycling and concepts behind pollution prevention.
PO3 PSO1 PSO2
CH6007 -WastewaterTreatment
Will be able to explain what wastewater is and describe how it is characterized.Will be able to justify why the treatment of wastewater is important and analyzethe strengths and limitations of the current standards and regulations.
PO3 PO4 PSO1PSO2
CH6008 - Drugs andPharmaceuticalTechnology
Ability to critically review and interpret the literature relating to drug researchand usageAble to demonstrate competence in the management of all lifecycle activities of amedicineAble to do research, design and complete a project in a specific area ofpharmaceutical medicine.
PO4 PO5 PSO1
CH6009- FertilizerTechnology
Ability to recommend management strategies in the use of Earth’s naturalresources.
PO3 PO4
CH6010 -ModernSeparation Processes
Be able to define and solve steady-state and transient mass transfer problems in 1-D, 2-D, and 3-D.Be able to construct simple models that capture the salient features of separationprocesses.Be able to analyze, design, and write professional reports on separation processesand equipment.
PO2 PO3 PO4
CH6011- EnzymeEngineering
Will have a skill on Enzyme engineering. Will help the students to betterunderstand the various enzyme processes. Will be useful during the project work PO3 PO4
MG6091- Industrial Able to be a productive member of society by attaining gainful employment. PO5
Management Able to quickly add value to the organization and work effectively in a teamenvironment
CH6012 -FermentationEngineering
Able to identify, select and explain current issues at the forefront of thisengineering discipline related to food, pharmaceuticals and biochemicalreaction engineering, which are complex and challenging
PO2 PO3I
CH6013- PetroleumTechnology
Able to develop an understanding of petroleum systems active within a basin andtheir analysis.Will be able to understand the overall refining process.
PO2 PO3
CH6014- Pulp andPaper Technology
Ability to describe the various processes that are available to convert the bagasseinto paper.Able to understand the overall process of paper manufacture,.
PO2 PO3 PO4
CH6015- PolymerTechnology
Ability to demonstrate knowledge and understanding ofthe principles related to the synthesis and characterization of polymers, thenature of industrial plastics, elastomers, composites and adhesives, and theirchemical and micro structural constitution
PO2 PO3 PO4
CH6016- ProcessModeling andSimulation
Will be able to characterize types of processes and simulations relevant to GISand identify methods and their suitability for various processes.Ability to explain the integration of GIS and models at different levels anddiscuss GIS relevant issues with a modeling specialistAbility to write simple process modeling tools using map algebra
PO1 PO2 PO3
GE6081 -Fundamentals ofNanoscience
Will be able to choose protocols, Conduct science or engineering procedures,Fabricate products, Make conclusions about results, Troubleshoot, DiscoverWill Function effectively in a laboratory environment using complexinstrumentation machinery and protocols.
PO3 PSO2
CH6017-Computational FluidDynamics
Upon completing the course, the student should have a Hands-on experience witha commercial CFD program.
PO1 PO2
EL6071 -ElectrochemicalEngineering
Student would be able to integrate professional, ethical, social and environmentalfactors in electrochemical engineering design and problem solving and understandthe impact of these factors on global energy issues
PO2 PO3 PO4
CH6018 -ProcessPlant Utilities
Able to explain the operation of a range of utility systems utilized within the lifesciences sector to include: water Gases such as compressed air and nitrogen PO3 PO4
steam heating, ventilation and air conditioning (HVAC) refrigeration cooling andheating electrical.Ability to describe the system layout, component parts and on-lineinstrumentation for typical systems for water, gas, steam, compressed air, HVACrefrigeration and electrical generation and distributionAble to examine the hazards and risks associated with the operation of a range ofutility systems
CH6019- Frontiers ofChemicalEngineering
Will have a well-developed understanding of the major areas of Computerapplications and analytical techniques.Ability to formulate significant research questions, design experiments, carry outexperimental protocol, and analyze and interpret data.
PO4 PO5 PO6
GE6075- ProfessionalEthics in Engineering
Able to develop in depth analysis of historical/current pioneers/leaders in theprofessionAble to understand the synthesis of trends and issues as related to currentprofessional practiceAble to understand the evaluation of organizational theories and human resourcemanagement principles.
PO5 PO6
GE6757- TotalQuality Management
An ability to use the techniques, skills, and modern engineering tools necessaryfor engineering practice an ability to apply knowledge of mathematics, science,and engineering.
PO5 PO6
CH6020- IndustrialInstrumentation
Upon completion of this course, the students would be able to understand aboutthe equipments used to control the production process of a chemical factoryand the mechanism of control through automation and computers.
PO2 PO4
DEPARTMENT OF INFORAMATION TECHNOLOGY REGULATION – 2017
DEPARTMENT VISION :
[enter your department vision]To achieve global standards in Quality of Education ,Research and Development in Information Technology by
adapting to the rapid technological advancement, and efficiently mould the engineers’ knowledge with theory and
practice, using teaching skill utilizing the latest practical experiments and software to fit into areas of technology with
advanced information.
DEPARTMENT MISSION :
[enter your department mission]
To produce successful graduates with personal and professional responsibilities and commitment to lifelong learning.
To impart professional ethics, social responsibilities, entrepreneur skills and value-based IT education.
Facilitate the development and application of problem-solving skills in students.
To produce 100% results by means of innovative and creative methods of teaching
The members discussed about defining Program Educational Objectives (PEO’s) in line with vision and mission of thedepartment and the following PEO’s were approved by the advisory board committee
PEOs
P I
To ensure graduates will be proficient in utilizing the fundamental knowledge of basic sciences, mathematics andInformation Technology for the applications relevant to various streams of Engineering and Technology.
PIITo enrich graduates with the core competencies necessary for applying knowledge of computers andtelecommunications equipment to store, retrieve, transmit, manipulate and analyze data in the context of businessenterprise.
PIII
To enable graduates to think logically, pursue lifelong learning and will have the capacity to understand technicalissues related to computing systems and to design optimal solutions.
PIV
To enable graduates to develop hardware and software systems by understanding the importance of social, businessand environmental needs in the human context.
PV
To enable graduates to gain employment in organizations and establish themselves as professionals by applying theirtechnical skills to solve real world problems and meet the diversified needs of industry, academia and research.
PO SL.NO PROGRAM OUTCOMES
PO 1Engineering knowledge: Apply the knowledge of mathematics, science, engineeringfundamentals, and an engineering specialization to the solution of complex engineering problems.
PO 2Problem analysis: Identify, formulate, review research literature, and analyze complexengineering problems reaching substantiated conclusions using first principles of mathematics,natural sciences, and engineering sciences.
PO 3Design/development of solutions: Design solutions for complex engineering problems and designsystem components or processes that meet the specified needs with appropriate consideration forthe public health and safety, and the cultural, societal, and environmental considerations.
PO 4Conduct investigations of complex problems: Use research-based knowledge and researchmethods including design of experiments, analysis and interpretation of data, and synthesis of theinformation to provide valid conclusions.
PO 5Modern tool usage: Create, select, and apply appropriate techniques, resources, and modernengineering and IT tools including prediction and modeling to complex engineering activities withan understanding of the limitations.
PO 6 The engineer and society: Apply reasoning informed by the contextual knowledge to assess
PO 7Environment and sustainability: Understand the impact of the professional engineering solutionsin societal and environmental contexts, and demonstrate the knowledge of, and need forsustainable development.
PO 8Ethics: Apply ethical principles and commit to professional ethics and responsibilities and normsof the engineering practice.
PO 9Individual and team work: Function effectively as an individual, and as a member or leader indiverse teams, and in multidisciplinary settings.
PO 10
Communication: Communicate effectively on complex engineering activities with theengineering community and with society at large, such as, being able to comprehend and writeeffective reports and design documentation, make effective presentations, and give and receiveclear instructions
PO 11Project management and finance: Demonstrate knowledge and understanding of the engineeringand management principles and apply these to one‘s own work, as a member and leader in a team,to manage projects and in multidisciplinary environments.
PO 12Life-long learning: Recognize the need for, and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological change.
The members discussed about defining Program Specific Outcomes to achieve vision and mission of the department andthe following PSO’s were proposed by the Advisory Board Committee
PSO SL.NOPROGRAM SPECIFIC OUTCOMES (PSOs)
Information Technology Graduates will be able to:
PSO1To create, select, and apply appropriate techniques, resources, modern engineering and IT tools includingprediction and modelling to complex engineering activities with an understanding of the limitations.
PSO2To manage complex IT projects with consideration of the human, financial, ethical and environmentalfactors and an understanding of risk management processes, and operational and policy implications
LIST OF CATEGORIES
S.NO CATEGORIES1 HUMANITIES AND SOCIAL SCIENCES(HS)2 BASIC SCIENCES(BS)
3 ENGINEERING SCIENCES(ES)4 PROFESSIONAL CORE(PC)5 PROFESSIONAL ELECTIVES(PE)
PROGRAM OUTCOMES MAPPING PEO AND PSOSEMESTER I
HS8151-COMMNICATIVE ENGLISH(HS01) Read articles of a general kind in magazines and newspapers. Participate effectively in informal conversations; introduce
themselves and their friends and express opinions in English. Comprehend conversations and short talks delivered in English. Write short essays of a general kind and personal letters and emails
in English.
PO9,PO10,P11,P12,PSO1,PSO2
PH8151-ENGINEERING PHYSICS(BS01) The students will gain knowledge on the basics of properties of
matter and its applications. The Students Will Acquire Knowledge On The Concepts Of
Waves And Optical Devices And Their Applications in fibreoptics.
The students will have adequate knowledge on the concepts ofthermal properties of materials and their applications in expansionjoints and heat exchangers.The students will get knowledge on advanced physics concepts ofquantum theory and its applications in tunneling microscopes,The students will understand the basics of crystals, their structuresand different crystal growth techniques.
PO1,PO2,PO3, PO7,PO12,PS01,PSO2
CY8151-ENGINEERING CHEMISTRY(BS02) The knowledge gained on engineering materials, fuels, energy
sources and water treatment techniques will facilitate betterunderstanding of engineering processes and applications forfurther learning.
PO1,PO2,PO3, PO7,PO12,PS01,PSO2
GE8151-PROBLEM SOLVING AND PYTHON PROGRAMMING(ES01) Develop algorithmic solutions to simple computational problems Read, write, execute by hand simple Python programs. Structure
simple Python programs for solving problems. Decompose a Python program into functions. Represent compound data using Python lists, tuples, dictionaries. Read and write data from/to files in Python Programs.
PO1,PO2,PO3, PO5, PO12,PS01
GE8152-ENGINEERING GRAPHICS(ES02) Familiarize with the fundamentals and standards of Engineering
graphics Perform freehand sketching of basic geometrical constructions and
multiple views of objects. Project orthographic projections of lines and plane surfaces. Draw projections and solids and development of surfaces.
PO1,PO2, PO6, PO12,PS01
Visualize and to project isometric and perspective sections ofsimple solids.
MA8151- ENGINEERING MATHEMATICS I(BS03) Use both the limit definition and rules of differentiation to
differentiate functions. Apply differentiation to solve maxima andminima problems.
Evaluate integrals both by using Riemann sums and by using theFundamental Theorem of Calculus.
Apply integration to compute multiple integrals, area, volume,integrals in polar coordinates, in addition to change of order andchange of variables.
Evaluate integrals using techniques of integration, such assubstitution, partial fractions and integration by parts
Determine convergence/divergence of improper integrals andevaluate convergent improper integrals
.Apply various techniques in solving differential equations.
PO1,PO2,PO3, PO9,PO12,PS01,PSO2
BS8161-PHYSICS AND CHEMISTRY LABORATORY Apply principles of elasticity, optics and thermal properties for
engineering applications. The students will be outfitted with hands-on knowledge
PO1,PO2,PSO1
GE8161- PROBLEM SOLVING AND PYTHON PROGRAMMING LABORATORY Write, test, and debug simple Python programs. Implement Python programs with conditionals and loops. Develop Python programs step-wise by defining functions and
calling them. Use Python lists, tuples, dictionaries for representing compound
data. Read and write data from/to files in Python.TOT
PO1,PO2,PO3,PO5,PO12,PSO1
SEMESTER IIHS8251-TECHNICAL ENGLISH(HS02)
Read technical texts and write area- specific texts effortlessly Listen and comprehend lectures and talks in their area of
Specialization successfully. Speak appropriately and effectively in varied formal and informal
contexts. Write reports and winning job applications.
PO9,PO10,PO11,PO12,PS01,PSO2
MA8251- ENGINEERING MATHEMATICS II (BS04)
Eigenvalues and eigenvectors, diagonalization of a matrix,Symmetric matrices, Positive definite matrices and similarmatrices. .
Gradient, divergence and curl of a vector point function andrelated identities
Evaluation of line, surface and volume integrals using Gauss,Stokes and Green‘s theorems and their verification
Analytic functions, conformal mapping and complex integration. Laplace transform and inverse transform of simple functions,
properties, various related theorems and application to differentialequations with constant coefficients.
PO1,PO2,PO3, ,PO9, PO12,PS01
PH 8252-PHYSICS FOR INFORMATION SCIENCE(BS05). Gain knowledge on classical and quantum electron theories, and
energy band structuues. Acquire knowledge on basics of semiconductor physics and its
applications in various devices Get knowledge on magnetic properties of materials and their
applications in data storage Have the necessary understanding on the functioning of optical
materials for optoelectronics Understand the basics of quantum structures and their applications
in carbon electronics
.PO1,PO2,PO3, PO7,
PO12,PS01,PSO2
BE8255-BASIC ELECTRICAL ELECTRONICS ANS MEASUREMENTS ENGINEERING(ES03) Discuss the essentials of electric circuits and analysis Discuss the basic operation of electric machines and transformers Introduction of renewable sources and common domestic loads. To understand the fundamentals of electronic circuit constructions. Introduction to measurement and metering for electric circuits.
PO1,PO2, ,PS01
IT8201-INFORMATION TECHNOLOGY ESSENTIALS(PC01) Design and deploy web-sites Design and deploy simple web-applications Create simple database applications Develop information system Describe the basics of networking and mobile communications
PO1,PO2,PO3, PO5,PO10,PO11,PO12,PS01,PSO2
CS8251-PROGRAMMING IN C(PC02) Develop simple applications in C using basic constructs Design and implement applications using arrays and strings Develop and implement applications in C using functions and
pointers Develop applications in C using structures Design applications using sequential and random access file
processing.
PO1,PO2,PO3, ,PO5, PO12,PS01
GE8261-ENGINEERING PRACTICES LABORATORY
Fabricate carpentry components and pipe connectionsPO1,PO2,PO6,PO12,PSO1
including plumbing works. Use welding equipments tojoin the structures
Carry out the basic machining operations Make the models using sheet metal works Illustrate on centrifugal pump, Air conditioner, operations
of smithy, foundry and fittings Carry out basic home electrical works and appliances Measure the electrical quantities Elaborate on the components, gates, soldering practices.
CS8261-C PROGRAMMING LABORATORY
Develop C programs for simple applications making use of basicconstructs, arrays and strings.
Develop C programs involving functions, recursion, pointers, andstructures
Design applications using sequential and random access fileprocessing.
PO1,PO2,PO3,PO5,PO12,PSO1
IT8211- INFORMATION TECHNOLOGY ESSENTIALS LABORATORY
To extend student‘s logical and mathematical maturity and abilityto deal with abstraction.
To introduce most of the basic terminologies used in computerscience courses and application of ideas to solve practicalproblems.
To understand the basic concepts of combinatorics and graphtheory.
To familiarize the applications of algebraic structures. To understand the concepts and significance of lattices and
boolean algebra which are widely used in computer science andengineering.
PO1,PO2,PO3,PO5,PO10,PO11,PO12,PSO1,PSO2
SEMESTER IIIMA8351- DISCRETE MATHEMATICS(BS06)
Have knowledge of the concepts needed to test the logic of aprogram.
Have an understanding in identifying structures on many levels. Be aware of a class of functions which transform a finite set into
another finite set which relates to input and output functions incomputer science.
Be aware of the counting principles. Be exposed to concepts and properties of algebraic structures such
as groups, rings and fields.
PO1,PO2,PO3, PO12,PS01
CS8351-DIGITAL PRINCIPLES AND SYSTEM DESIGN (ES04) Simplify Boolean functions using KMap Design and Analyze Combinational and Sequential Circuits Implement designs using Programmable Logic Devices Write HDL code for combinational and Sequential Circuits
PO1,PO2,PO3, PS01
CS8391-DATA STRUCTURES(PC03)
Implement abstract data types for linear data structures Apply the different linear and non-linear data structures to problem
solutions. Critically analyze the various sorting algorithms.
PO1,PO2,PO3, PS01
CS8392-OBJECT ORIENTED PROGRAMMING (PC04) Develop Java programs using OOP principles Develop Java programs with the concepts inheritance and
interfaces Build Java applications using exceptions and I/O streams Develop Java applications with threads and generics classes Develop interactive Java programs using swings
PO1,PO2,PO3,PO5, PS01
EC8394-ANALOG AND DIGITAL COMMUNICATION (PC05) Apply analog and digital communication techniques Use data and pulse communication techniques Analyze Source and Error control coding Utilize multi-user radio communication.
PO1,PO2,PO3, PS01
CS8381-DATA STRUCTURES LABORATORY Write functions to implement linear and non-linear data structure
operations Suggest appropriate linear / non-linear data structureoperations for solving a given problem
Appropriately use the linear / non-linear data structure operationsfor a given problem
Apply appropriate hash functions that result in a collision freescenario for data storage and retrieval
PO1,PO2,PO3,PO5,PSO1
CS8383-OBJECT ORIENTED PROGRAMMING LABORATORY Develop and implement Java programs for simple applications that
make use of classes, packages and interfaces. Develop and implement Java programs with arraylist, exception
handling and multithreading. Design applications using file processing, generic programming
and event handling.
PO1,PO2,PO3,PO5,PSO1
CS8382-DIGITAL SYSTEMS LABORATORY Implement simplified combinational circuits using basic logic
gates Implement combinational circuits using MSI devices Implement sequential circuits like registers and counters Simulate combinational and sequential circuits using HDL
PO1,PO2,PO3,PO5,PSO1
HS8381-INTERPERSONAL SKILLS/LISTENING & SPEAKING LABORATORY Listen and respond appropriately. Participate in group discussions Make effective presentations Participate confidently and appropriately in conversations both
formal and informal
PO10,PO11,PO12,PSO1,PSO2
SEMESTER IVMA8391-PROBABILITY AND STATISTICS(BS07)
Understand the fundamental knowledge of the concepts ofprobability and have knowledge of standard distributions whichcan describe real life phenomenon
Understand the basic concepts of one and two dimensional randomvariables and apply in engineering applications.
Apply the concept of testing of hypothesis for small and largesamples in real life problems
Apply the basic concepts of classifications of design ofexperiments in the field of agriculture and statistical qualitycontrol
Have the notion of sampling distributions and statistical techniquesused in engineering and management problems
PO1,PO2,PO3, PS01
CS8491-COMPUTER ARCHITECTURE(PC06) Understand the basics structure of computers, operations and
instructions. Design arithmetic and logic unit. Understand pipelined execution and design control unit. Understand parallel processing architectures. Understand the various memory systems and I/O communication Understand the basics structure of computers, operations and
instructions. Design arithmetic and logic unit. Understand pipelined execution and design control unit. Understand parallel processing architectures. Understand the various memory systems and I/O communication.
PO1,PO2,PO3, PS01
CS8492-DATABASE MANAGEMENT SYSTEMS(PC06) Classify the modern and futuristic database applications based on
size and complexity Map ER model to Relational model toperform database design effectively
Write queries using normalization criteria and optimize queries Compare and contrast various indexing strategies in different
database systems Appraise how advanced databases differ from traditional
databases.
PO1,PO2,PO3, PS01
CS8451-DESIGN AND ANALYSIS OF ALGORITHM(PC07) Design algorithms for various computing problems. Analyze the
time and space complexity of algorithms. Critically analyze the different algorithm design techniques for a
given problem .Modify existing algorithms to improve efficiency.
PO1,PO2,PO3, PO5, PS01
CS8493-OPERATING SYSTEMS(PC08) Analyze various scheduling algorithms. Understand deadlock, prevention and avoidance algorithms. Compare and contrast various memory management schemes. Understand the functionality of file systems. Perform administrative tasks on Linux Servers. Compare iOS and Android Operating Systems
PO1,PO2,PO3, PS01
GE8291-ENVIRONMENTAL SCIENCE AND ENGINEERING-(HS03)
Public awareness of environment at infant stage. Ignorance andincomplete knowledge has lead to misconceptions
Ignorance and incomplete knowledge has lead to misconceptions Development and improvement in standard of living has lead to
serious environmental disasters
PO7,PS012
CS8481-DATABASE MANAGEMENT SYSTEMS LABORATORY Use typical data definitions and manipulation commands. Design applications to test Nested and Join Queries Implement simple applications that use Views Implement
applications that require a Front-end Tool Critically analyze the use of Tables, Views, Functions and
Procedures
PO1,PO2,PO3,PO5,PSO1
CS8461-OPERATING SYSTEMS LABORATORY
Compare the performance of various CPU Scheduling AlgorithmsImplement Deadlock avoidance and Detection Algorithms
Implement Semaphores Create processes and implement IPC Analyze the performance of the various Page Replacement
Algorithms Implement File Organization and File Allocation Strategies
PO1,PO2,PO3,PO5,PSO1
HS8461-ADVANCED READING AND WRITING Write different types of essays. Write winning job applications Read and evaluate texts critically Display critical thinking in
various professional contexts.PO10,PO11,PO12,PSO1,PSO2
SEMESTER VMA8551-ALGEBRA AND NUMBER THEORY(BS08)
Apply the basic notions of groups, rings, fields which will then beused to solve related problems.
Explain the fundamental concepts of advanced algebra and theirrole in modern mathematics and applied contexts
Demonstrate accurate and efficient use of advanced algebraictechniques
Demonstrate their mastery by solving non - trivial problemsrelated to the concepts, and by proving simple theorems about the,statements proven by the text.
Apply integrated approach to number theory and abstract algebra,and provide a firm basis for further reading and study in thesubject.
PO1,PO2,PO3, PS01
CS8591-COMPUTER NETWORKS(PC09) Understand the basic layers and its functions in computer
networks. Evaluate the performance of a network Understand the basics of how data flows from one node to another Analyze and design routing algorithms Design protocols for various functions in the network .Understand the working of various application layer protocols
PO1,PO2,PO3, PS01
EC8691-MICROPROCESSOR AND MICRO CONTROLLERS(PC10)
Understand and execute programs based on 8086 microprocessor. Design Memory Interfacing circuits. Design and interface I/O circuits.
PO1,PO2,PO3, PS01
IT8501-WEB TECHNOLOGY(PC11) Design simple web pages using markup languages like HTML and
XHTML Design and implement 8051 microcontroller based systems. Create dynamic web pages using DHTML and java script that is
easy to navigate and use. Program server side web pages that have to process request from
client side web pages Represent web data using XML and develop web pages using JSP Understand various web services and how these web services
interact.
PO1,PO2,PO3, PO5,PS01
CS8494-SOFTWARE ENGINEERING( PC12) Identify the key activities in managing a software project.
Compare different processmodels
Concepts of requirements engineering and Analysis Modeling. Apply systematic procedure for software design and deployment Compare and contrast the various testing and maintenance Manage project schedule, estimate project cost and effort
required
PO1,PO2,PO3,PO10 PS01
EC8681- MICROPROCESSOR AND MICRO CONTROLLERS LABORATORY
Write ALP Programmes for fixed and Floating Point andArithmetic operations Interface different I/Os with processor
Generate waveforms using Microprocessors Execute Programs in 8051 Explain the difference between simulator and Emulator
PO1,PO2,PO3, PO5,PS01
CS8581-NETWORKS LABORATORY
Implement various protocols using TCP and UDP. Compare the performance of different transport layer
protocols. Use simulation tools to analyze the performance of various
network protocols. Analyze various routing algorithms Implement error correction codes.
PO1,PO2,PO3, PO5,PS01
IT8511-WEB TECHNOLOGY LABORATORY
Design simple web pages using markup languages like HTML andXHTML.
Create dynamic web pages using DHTML and java script that iseasy to navigate and use
Program server side web pages that have to process request fromclient side web pages
Represent web data using XML and develop web pages using JSP Understand various web services and how these web services
PO1,PO2,PO3, PO5,PS01
interact.SEMESTER VI
IT8601-COMPUTATIONAL INTELLIGENCE(PC13) Provide a basic exposition to the goals and methods of
Computational Intelligence Study of the design of intelligent computational techniques Apply the Intelligent techniques for problem solving Improve problem solving skills using the acquired knowledge in
the areas of, reasoning, natural language understanding, computervision, automatic programming and machine learning.
PO1,PO2,PO3,PO4,PO6,PS01,PSO2
CS8592-OBJECT ORIENTED ANALYSIS AND DESIGN(PC14) Express software design with UML diagrams Design software applications using OO concepts. Identify various scenarios based on software requirements Transform UML based software design into pattern based design
using design patterns Understand the various testing methodologies for OO software
PO1,PO2,PO3, PO4, PS01,PSO2
IT8602-MOBILE COMMUNICATION(PC15) Explain the basics of mobile telecommunication system Illustrate the generations of telecommunication systems in wireless
network Understand the architecture of Wireless LAN technologies Determine the functionality of network layer and Identify a routing
protocol for a given Ad hoc networks Explain the functionality of Transport and Application layer
PO1,PO2,PO3,PSO1
CS8091-BIG DATA ANALYTICS(PC16) Work with big data tools and its analysis. techniques Analyze data by utilizing clustering and classification algorithms Learn and apply different mining algorithms and recommendation
systems for large volumes of data Perform analytics on datastreams
Learn NoSQL databases and management
PO1,PO2,PO3,PO4,PO6,PS01,PSO2
CS8092-COMPUTER GRAPHICS AND MULTIMEDIA(PC17) Design two dimensional graphics. Apply two dimensional transformations. Design three dimensional graphics. Apply three dimensional transformations Apply Illumination and color models Apply clipping techniques to graphics Understood Different types of Multimedia File Format Design Basic 3d Scenes using Blender
PO1,PO3,PO5,PSO1
CS8662-MOBILE APPLICATION DEVELOPMENT LABORATORY Develop mobile applications using GUI and Layouts. Develop mobile applications using Event Listener. Develop mobile applications using Databases. Develop mobile applications using RSS Feed, Internal/External
Storage, SMS, Multithreading and GPS.
PO1,PO3,PO5,PSO1
Analyze and discover own mobile app for simple needs.
CS8582-OBJECT ORIENTED ANALYSIS AND DESIGN LABORATORY
Perform OO analysis and design for a given problem specification. Identify and map basic software requirements in UML mapping Improve the software quality using design patterns and to explain
the rationale behind applying specific design patterns Test the compliance of the software with
the SRS.
PO1,PO2,PO3,PO4,PO5,PSO1,PSO2
HS8581-PROFESSIONAL COMMUNICATION
Make effective presentations Participate confidently in GroupDiscussions.
Attend job interviews and be successful in them. Develop adequate Soft Skills required for the workplace
-
SEMESTER VIIMG8591-PRINCIPLES OF MANAGEEMENT(HS04)
Upon completion of the course, students will be able to have clearunderstanding of managerial functions like planning, organizing,staffing, leading & controlling and have same basic knowledge oninternational aspect of management
PO8,PO9,PO10,PO11,PO12,PSO1,PSO2
CS8792-CRYPTOGRAPHY AND NETWORK SECURITY(PC18) Understand the fundamentals of networks security, security
architecture, threats and vulnerabilities Apply the different cryptographic operations of symmetric
cryptographic algorithms Apply the different cryptographic operations of public key
cryptography Apply the various Authentication schemes to simulate different
applications. Apply the various Authentication schemes to simulate different
applications. Understand various Security practices and System security
standard.
PO1,PO2,PO3,PO4,PO6,PS01,PSO2
CS8791-CLOUD COMPUTING(PC19)
Articulate the main concepts, key technologies, strengths andlimitations of cloud computing.
Learn the key and enabling technologies that help in thedevelopment of cloud.
Develop the ability to understand and use the architecture ofcompute and storage cloud service and delivery models.
Explain the core issues of cloud computing such as resourcemanagement and security.
Be able to install and use current cloud technologies. Evaluate and choose the appropriate technologies, algorithms and
approaches for implementation and use of cloud
PO1,PO2,PO3,PO4,PO6,PS01,PSO2
IT8711-FOSS AND CLOUD COMPUTING LABORATORY
Configure various virtualization tools such as Virtual Box,VMware workstation.
Design and deploy a web application in a PaaS environment .Learn how to simulate a cloud environment to implement new
schedulers . Install and use a generic cloud environment that can be used as a
private cloud. Manipulate large data sets in a parallel environment.
PO1,PO2,PO3,PO4,PO5,PO6,PS01,PSO2
IT8761-SECURITY LABORATORY Develop code for classical Encryption Techniques to solve the
problems. Build cryptosystems by applying symmetric and public key
encryption algorithms. Construct code for authentication algorithms. Develop a signature scheme using Digital signature standard. Demonstrate the network security system using open source tools
PO1,PO2,PO3,PO4,PO6,PS01,PSO2
SEMESTER VIIIIT8811-PROJECT WORK
On Completion of the project work students will be in a position totake up any challenging practical problems and find solution byformulating proper methodology
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11,PO12,PS
O1,PSO2PROFESSIONAL ELECTIVES(PE)
IT8076-SOFTWARE TESTING Design test cases suitable for a software development for different
domains. Identify suitable tests to be carried out. Prepare test planning based on the document. Document test plans and test cases designed. Use automatic testing tools. Develop and validate a test plan.
PO1,PO2, PO4, PS01,PSO2
CS8077-GRAPH THEORY AND APPLICATIONS Understand the basic concepts of graphs, and different types of
graphs Understand the properties, theorems and be able to provetheorems.
Apply suitable graph model and algorithm for solving applications.
PO1,PO2,PO3, PO4, PS01,PSO2
IT8071-DIGITAL SIGNAL PROCESSING Perform mathematical operations on signals. Understand the sampling theorem and perform sampling on
continuous-time signals to get discrete time signal by applyingadvanced knowledge of the sampling theory.
Transform the time domain signal into frequency domain signaland vice-versa.
Apply the relevant theoretical knowledge to design the digitalIIR/FIR filters for the given analog specifications.
PO1,PO2,PO3, PO4,PO6,PO7,PS01,PSO2
IT8001-INFORMATION STORAGE AND MANAGEMENT
Understand the logical and physical components of a Storageinfrastructure.
Evaluate storage architectures, including storage subsystems,DAS, SAN, NAS, and CAS
.Understand the various forms and types of Storage Virtualization. Describe the different role in providing disaster recovery and
business continuity capabilities. Distinguish different remote replication technologies.
PO1.PO2,PSO1
CS8072-AGILE METHODOLOGIES Realize the importance of interacting with business stakeholders in
determining the requirements for a software system Perform iterative software development processes: how to plan
them, how to execute them . Point out the impact of social aspects on software development
success. Develop techniques and tools for improving team collaboration
and software quality. Perform Software process improvement as an ongoing task for
development teams. Show how agile approaches can be scaled up to the enterprise
level.
PO1,PO5,PO9,PO10,PO11,PSO1,PSO2
IT8072-EMBEDDED SYSTEMS Describe the architecture and programming of ARM processor. Explain the concepts of embedded systems Understand the Concepts of peripherals and interfacing of
sensors. Capable of using the system design techniques to develop
firmware Illustrate the code for constructing a system
PO1,PO2,PO3,PO6,PO7,PSO1,PSO2
GE8075-INTELLECTUAL PROPERTY RIGHTS Ability to manage Intellectual Property portfolio to enhance the
value of the firmPO8,PO10,PO11,PSO1,PS02
IT8002-WEB DEVELOPMENT FRAMEWORKS Analyze the fundamentals of web framework Use the concept of
Java web framework Implement the concept using Struts framework Apply the concept of python web framework to the problem
solutions. Critically analyze the various Web frameworks.
PO1 ,PO3 , PO5 ,PSO1
CS8082-MACHINE LEARNING TECHNIQUES Differentiate between supervised, unsupervised, semi-supervised
machine learning approaches Apply specific supervised or unsupervised machine learning
algorithm for a particular problem Analyse and suggest the appropriate machine learning approach
for the various types of problem Design and make modifications to existing machine learning
PO1,PO2,PO3,PO4,PO6,PSO1,PSO2
algorithms to suit an individual application Provide useful case studies on the advanced machine learning
algorithmIT8003-FORMAL LANGUAGES AND AUTOMATA THEORY
Design a finite automaton for a specific language. Design a Turing machine. Select appropriate grammar for the implementation of compiler
phases Design a lexical analyzer Design a simple parser Design and implement techniques used for optimization by a
compiler Write a very simple code generator
PO1,PO2,PO3,PO4,PO6,PSO1,PSO2
CS8081-INTERNET OF THINGS Explain the concept of IoT. Analyze various protocols for IoT. Design a PoC of an IoT system using Rasperry Pi/Arduino Apply data analytics and use cloud offerings related to IoT .Analyze applications of IoT in real time scenario
PO1,PO3,PO5,PO6,PO7,PSO1,PSO2
IT8075-SOFTWARE PROJECT MANAGEMENT Understand Project Management principles while developing
software. Gain extensive knowledge about the basic project management
concepts, framework and the process models. Obtain adequate knowledge about software process models and
software effort estimation techniques. Estimate the risks involved in various project activities. Define the checkpoints, project reporting structure, project
progress and tracking mechanisms using project managementprinciples.
Learn staff selection process and the issues related to peoplemanagement
PO1,PO2,PO3,PO9,PO10,PO11,PSO1,PSO2
IT8074-SERVICE ORIENTED ARCHITECTURE Understand XML technologies Understand service orientation,
benefits of SOA Understand web services and WS standards Use web services extensions to develop solutions Understand and apply service modeling, service oriented analysis
and design for application development
PO1,PO2,PO6,PO7,PSO1,PSO2
GE8077-TOTAL QUALITY MANAGEMENT The student would be able to apply the tools and techniques of
quality management to manufacturing and services processes.PO8,PO9,PO10,PO11,PO12,PSO
1,PSO2
CS8079-HUMAN COMPUTER INTERACTION Design effective dialog for HCI Design effective HCI for individuals and persons with disabilities PO1,PO2,PO3,PO4,PO6,PSO1,P
Assess the importance of user feedback. Explain the HCI implications for designing multimedia/
ecommerce/ e-learning Web sites. Develop meaningful user interface.
SO2
CS8073-C# AND .NET PROGRAMMING Write various applications using C# Language in the .NET
Framework. Develop distributed applications using .NET Framework Create mobile applications using .NET compact Framework.
PO1,PO3,PO5,PSO1
CS8088-WIRELESS ADHOC AND SENSOR NETWORKS Identify different issues in wireless ad hoc and sensor networks . To analyze protocols developed for ad hoc and sensor networks . To identify and understand security issues in ad hoc and sensor
networks.PO1,PO2,PO3, PS01
GE8072-FOUNDATION SKILLS IN INTEGRATED PRODUCT DEVELOPMENT
Define, formulate and analyze a problem Solve specific problemsindependently or as part of a team
Gain knowledge of the Innovation & Product Developmentprocess in the Business Context Work independently as well as inteams
Manage a project from start to finish
PO1,PO2,PO3,PO4,PO6,PO7,PO11,PSO1,PSO2
CS8071-ADVANCED TOPICS ON DATABASES To develop in-depth understanding of relational databases and
skills to optimize database performance in practice. To understand and critique on each type of databases To design faster algorithms in solving practical database problems To implement intelligent databases and various data models.
PO1,PO2,PO3,PO4,PSO1,PSO2
GE8074-HUMAN RIGHTS Engineering students will acquire the basic knowledge of human
rightsPO8,PO10,PO11,PSO1,PSO2
GE8071-DISASTER MANAGEMENT Differentiate the types of disasters, causes and their impact on
environment and society Assess vulnerability and various methodsof risk reduction measures as well as mitigation.
Draw the hazard and vulnerability profile of India, Scenarios in theIndian context, Disaster damage assessment and management.
PO1,PO2,PO3,PO6,PO7,PSO1,PSO2
CS8085-SOCIAL NETWORK ANALYSIS Develop semantic web related applications. Represent knowledge using ontology. Predict human behaviour in social web and related communities Visualize social networks.
PO1,PO2,PO3,PO4,PSO1,PSO2
CS8086-SOFT COMPUTING
Apply suitable soft computing techniques for various applications. Integrate various soft computing techniques for complex problems.
PO1,PO2,PO3,PO4,PSO1,PSO2
CS8074-CYBER FORENSICSPO1,PO2,PO3,PO4,PSO1,PSO2
Understand the basics of computer forensics Apply a number of different computer forensic tools to a given
scenario Analyze and validate forensics data Identify the vulnerabilities in a given network infrastructure Implement real-world hacking techniques to test system security
IT8073-INFORMATION SECURITY
Discuss the basics of information security Illustrate the legal, ethical and professional issues in information
security Demonstrate the aspects of risk management. Become aware of various standards in the Information Security
System Design and implementation of Security Techniques.
PO1,PO2,PO3,PO4,PSO1,PSO2
EC8093-DIGITAL IMAGE PROCESSING Know and understand the basics and fundamentals of digital image
processing, such as digitization, sampling, quantization, and 2D-transforms.
Operate on images using the techniques of smoothing, sharpeningand enhancement
. Understand the restoration concepts and filtering techniques. Learn the basics of segmentation, features extraction,
compression and recognition methods for color models
PO1,PO2,PO3,PO4,PSO1,PSO2
IT8004-NETWORK MANAGEMENT On Successful completion of the course ,Students will be able to
Gather, derive, define and validate real requirements for thespecified network
.Understand different types of requirements from the user,application, device and network component Develop traceabilitybetween requirements, architecture decisions, and design decisions
Implement how and where addressing and routing, security,network management, and performance are required in thenetwork.
Use SNMPv1, v2 and v3 protocols.
PO1,PO2,PO3,PO4,PSO1,PSO2
GE8076-PROFESSIONAL ETHICS IN ENGINEERING Upon completion of the course, the student should be able to
apply ethics in society, discuss the ethical issues related toengineering and realize the responsibilities and rights in thesociety.
PO8,PO12,PSO2
CS8080-INFORMATION RETRIVAL TECHNIQUES Use an open source search engine framework and explore its
capabilities Apply appropriate method of classification or clustering. Design and implement innovative features in a search engine. Design and implement a recommender system.
PO1,PO2,PO3,PSO1
CS8078-GREEN COMPUTING
Acquire knowledge to adopt green computing practices tominimize negative impacts on the environment.
Enhance the skill in energy saving practices in their use ofhardware
Evaluate technology tools that can reduce paper waste and carbonfootprint by the stakeholders.
Understand the ways to minimize equipment disposal requirements
PO1,PO2,PO3,PO6,PO7,PSO1,PSO2
CS8084-NATURAL LANGUAGE PROCESSING To tag a given text with basic Language features To design an
innovative application using NLP components To implement a rule based system to tackle morphology/syntax of
a language To design a tag set to be used for statistical processing for real-
time applications To compare and contrast the use of different statistical approaches
for different types of NLP applications.
PO1,PO2,PO3,PO4,PSO1,PSO2
IT8077-SPEECH PROCESSING Create new algorithms with speech processing Derive new speech models Perform various language phonetic
analysis Create a new speech identification system Generate a new speech recognition system
PO1,PO2,PO3,PO4,PSO1,PSO2
IT8078-WEB DESIGN AND MANAGEMENT Design Website using HTML CSS and JS Design Responsive Sites Manage, Maintain and Support Web Apps
PO1,PO3,PSO1
IT8005-ELECTRONIC COMMERCE Design Website using HTML CSS and JS Design Responsive Sites Manage, Maintain and Support Web Apps
PO1,PO2,PO3,PO11,PO12,PSO1,PSO2
GE8073-FUNDAMENTALS OF NANO SCIENCE Will familiarize about the science of nanomaterials Will demonstrate the preparation of nanomaterials Will develop knowledge in characteristic nanomaterial
PO1,PO2,PO3,PSO1
MOHAMED SATHAK ENGINEERING COLLEGE
KILAKARAI – 623 806
DEPARTMENT OF ARCHITECTURE
VISION, MISSION, PROGRAM OBJECTIVES (PO’S)PROGRAM SPECIFIC OUTCOMES(PSO’S)
Vision:
To emerge as a “center for excellence” offering Architecture education and research opportunities of veryhigh standards to students, develop total personality of the individual, and instill high levels of disciplineand strive to set global standards, making our students technologically superior and ethically strong, whoin turn shall contribute for the advancement of society and human kind.
Mission:
To dedicate and commit ourselves to achieve, sustain and foster unmatched excellence in technicaleducation. To this end, we will pursue continuous development of infrastructure and enhance state of artequipment to provide our students a technologically up-to-date and intellectually inspiring environment oflearning,research,creativity, innovation and professional activity and inculcate in ethical and moralvalues.
Program Outcomes(PO’s)
A. an ability to apply knowledge of Building Services, material science, and Constructionengineering,
B. an ability to design and conduct studio experiments, as well as to analyze and interpret data,
C. an ability to design a Building component, or process to meet desired needs within realisticconstraints such as economic, environmental, social, political, ethical, health and safety,manufacturability, and sustainability for Architectural Design.
D. an ability to function on multidisciplinary teams,
E. an ability to identify, formulate, and solve Architectural problems,
F. an understanding of professional and ethical responsibility to Profession of Architecture.
G. an ability to communicate effectively,
H. the broad education necessary to understand the impact of Architectural and engineeringsolutions in a global, economic, environmental, and societal context,
I. a recognition of the need for, and an ability to engage in life-long learning,
J. a knowledge of contemporary issues, and
K. an ability to use the techniques, skills, and modern Architectural tools necessary for Architecturalpractice.
L. An ability to compete the modern world with advancement in Architectural Studies.
PROGRAMME SPECIFIC OUT COMES (PSOs):Bachelor of Architecture curriculum is designed to prepare the graduates having aptitude andKnowledge
1. To facilitate a successful professional career.
2. To imbibe a strong foundation in Humanities and Sciences, Engineering Sciences andArchitectural Design Skills.
3. To appreciate the theories and practices in the field of Architecture and design.
4. To update themselves abreast of new developments in the field of architecture throughlifelong learning.
5. To emulate and inspire high ethical values in professional practice.
MAPPING OF PROGRAMME EDUCATIONAL OBJECTIVES WITH PROGRAMMEOUTCOME:A broad relation between the programme objectives and the outcome is given in the followingtable
PEO PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8
1
2
3
4
5
CO Sl. No Course OUTCOMES
Mapping of courseoutcome with PO and
PSO
AR8101 - History of Architecture andCulture I
COAR 001
An understanding about the spatial and stylistic qualities associatedwith architecture.
PO3An Understanding of architecture as an outcome of various social,political and economic upheavals, and as a response to the culturaland context.
MA8102 - MATHEMATICS
COAR 002
The aim of the course is to develop the skills of the students inarchitecture. PO1
The students will be trained on the basis of the topics of Mathematicsnecessary for effective understanding of architecture subjects.
At the end of the course, the students would have an understandingof the appropriate role of the mathematical concepts learnt.
AR8121 - ARCHITECTURAL DRAWING I
COAR 003
Understanding on the concepts of architectural drawing as well asrepresentation skills is imparted.
PO1Understanding on the building representation in 2D and 3D amongstudents in addition to preparation of measured drawing.
HS8121 - COMMUNICATION ENGLISH
COAR 004
Speak convincingly, express their opinions clearly, initiate adiscussion, negotiate, and argue using appropriate communicativestrategies.
PO6
Read different genres of texts, infer implied meanings and criticallyanalyze and evaluate them for ideas as well as for method ofpresentation.
Listen/view and comprehend different spoken excerpts critically andinfer unspoken and implied meanings.
Write effectively and persuasively and produce different types ofwriting such as narration, description, exposition and argument aswell as creative, critical, analytical andevaluative writing.
AR8111 - ART STUDIO
COAR 005
The students are exposed to various mediums, techniques and tools.
PO1
The students gain mastery in sketching, visualizing and expressionthrough manual drawing.
Sensitized to culture, craft and context..Skill Development in Handling Materials and in Making Products
AR8112 - BASIC DESIGN
COAR 006
An understanding of the qualities of different elements as well as theircomposite fusions.
PO2
An ability to engage and combine the elements of design inspontaneous as well as intentional ways in order to create desiredqualities and effects.Development of required skills – observation / analysis / abstractions/ interpretation /representations / expressions through models anddrawings.Understanding by making
AR8201 - THEORY OF ARCHITECTURE
COAR 007
A thorough understanding on the definition of architecture; elementsof architectures of form.
PO4
An exposure to the principles of architecture and applications of thesame in buildings and spaces.
An understanding the meaning of character and style of buildingswith examples.
An exposure to students on ideologies and philosophies ofarchitectures of contemporary
An exposure to analysis and experience of architecture throughcase studies and architects through examples.
AR8202 - MECHANICS OF STRUCTURES I
COAR 008
Apply the concepts of action of forces on a body and should be ableto apply the equilibrium concepts.
PO1Students are taught basic geometric properties and the behavior ofmaterials under effect of forces.
AR8221 ARCHITECTURAL DRAWING II
COAR 009
Ability to construct the 3d views and perspective drawings of thebuildings.
PO1Understanding of advanced documentation and measured drawing
techniques.AR8222 - BUILDING MATERIALS AND CONSTRUCTION I
COAR 010
Students learn construction details using naturally occurring buildingmaterials such as stone, bamboo, mud and lime through drawing aswell as doing a literature or live case study.
PO4, PO6Students are to submit drawing plates comprising of technical plan,elevation and section along with sketches and details showingmethod of construction.
AR8211 - MODEL MAKING AND ARCHITECTURAL DELINEATION
COAR 011
Exploration of conventional and less conventional techniques ofrepresentation in an attempt to creative visualization and tounderstand drawings as vehicles of thinking.
PO2, PO7
Versatility in making models ranging from study to presentation and invarying scales and materials.
AR8212 - ARCHITECTURAL DESIGN I
COAR 012
The students shall understand the basic functional aspect ofdesigning simple building type and its relevant spatial organization.
PO2, PO8The students shall be learn to reciprocate and sensitize thedesign/concept to the environment and the design skill of the project
AR8301 - HISTORY OF ARCHITECTURE AND CULTURE II
COAR 013
An understanding of the diversity of architecture in India andsensitivity towards its syncretic aspects.
PO4Ability to appreciate particular cultural, symbolic, spatial and materialqualities in architecture and cities as givers of meaning andcontinuity.
Ability to appreciate universal qualities of architecture and theireffects.
AR8302 - MECHANICS OF STRUCTURES II
COAR 014
Ability to apply the concepts/techniques of finding stresses.
PO1Ability to use simple bending theory to find deflection in beams.
Ability to analyse and solve different types of columns.
Ability to analyse the different types of indeterminate beams.
AR8321 BUILDING MATERIALS AND CONSTRUCTION II
COAR 015
Knowledge of properties and construction methods of brick, clayproducts and timber products.
PO1 , PO6, PO7Ability to design and detail structural and non structural componentsof simple buildings using the above materials.
Ability to integrate knowledge of properties and construction methodsof basic building materials in the design of simple projects.
AR8322 - SITE SURVEYING AND PLANNING
COAR 016
Sensitivity towards aspects of site at macro and micro contexts..
PO1, PO2, PO3,PO4Ability to exploit potential of site to design the built environment.
Ability to measure, draw, analyse and plan a particular site for aspecific purpose
AR8323 - CLIMATE AND BUILT ENVIRONMENT
COAR 017
An understanding of heat balance in human beings.
PO2An understanding of the effect of sun and wind on buildings.
An understanding of material effects in buildings.
Ability to design buildings with respect to climate.
AR8311 - ARCHITECTURAL DESIGN II
COAR 018
Ability to collect, assimilate and integrate knowledge in a holisticmanner.
PO2, PO8
Sensitivity towards the nature and values of unselfconscious andcollective design as well as the interconnectedness of human societyand environment.
Ability to observe and analyse changes in the above.
Ability to project future transformations and give possible/ appropriateways to address issues, if any.Sensitivity in design approach in community oriented projects withrespect to context, collective values and needs.
AR8401 - DESIGN OF STRUCTURES I
COAR 019
Ability to design timber beams and columns by applying the codeprovisions.
PO1Ability to design steel joints for maximum efficiency and strength.Ability to design tension and compression members for differentconditions by applying the code provisions.Ability to design different types of laterally unsupported & supportedbeams for different conditions
AR8402 - ENVIRONMENTAL SCIENCE FOR THE BUILTENVIRONMENT
COAR 020
Sensitivity towards the environment as a totality and knowledge aboutits importance. PO1, PO3. An understanding of the role of public awareness and participationwith respect to environmental issues, apart from laws
AR8421- BUILDING MATERIALS AND CONSTRUCTION III
COAR 021
Knowledge of properties of ferrous and non ferrous metals asmaterials for buildings.
PO1, PO6, PO7An understanding of possibilities of steel as an important buildingconstruction material.Ability to design and detail structural and non structural componentsof simple buildings using metals.Ability to use metal innovatively in building projects.
AR8422 - BUILDING SERVICES I
COAR 022
Understanding of water supply, sewage, drainage and waste systemsin buildings.
PO6, PO7Ability to conceptually plan/ design the above for a given simplecontext.Awareness of sustainable principles and best practices
AR8423 - COMPUTER-AIDED VISUALIZATION
COAR 023 Ability to express using digital tools in the realm of visual composition,drafting, 3D visualization and rendering PO1
AR8411 - ARCHITECTURAL DESIGN III
COAR 024
Ability to perceive, understand and represent fundamental attributesof form- space with respect to human experience and use. PO2, PO8Ability to ideate, innovate and create meaningful built environment inbasic human situations.
AR8501 - DESIGN OF STRUCTURES II
COAR 025
Ability to understand the different concepts of WSM and LSDmethods using the code provisions.
PO1Ability to design RCC beams and slabs by applying the aboveconcepts.Ability to design RCC dog legged staircase design using LSD
AR8502 - HISTORY OF ARCHITECTURE AND CULTURE III
COAR 026
An understanding of modernity as a fundamental transformation inWestern society that spread across the world and the resultantarchitectural production.
PO3, PO4An insight into the development of modern architecture.
An understanding of architecture in India under influence of colonialismand colonial modernity
AR8521 - BUILDING MATERIALS AND CONSTRUCTION IV
COAR 027
Ability to use concrete as a versatile material in different contexts.
An understanding of the concepts of concrete as a buildingconstruction material.
PO3, PO6Ability to design and detail specific components in concrete wherethere is scope for architectural design.
Ability to use concrete innovatively in simple projects
AR8522 - BUILDING SERVICES II
COAR 028
Knowledge of basics of electrical, lighting and acoustic systems inbuildings.
PO1, PO4Ability to design buildings satisfying electrical, lighting and acousticprinciples.
Ability to design basic electrical, lighting and acoustic systems forbuildings
AR8511 - ARCHITECTURAL DESIGN IV
COAR 029
Ability to understand the nature, needs and ways of contemporaryurban society as well as relate the existing built environment as areflection of this.
PO2, PO8Ability to draw from this understanding and identify issues/ challengesinvolving contemporary urban life and the built environment.
Ability to give appropriate/ innovative design solutions in the abovecontext
AR8601 - DESIGN OF STRUCTURES III
COAR 030
An understanding of the different concepts in designing footings andcolumns and masonry walls using LSD methods.
PO1An understanding of the concepts and applications of prestressedconcrete.
AR8602 - HISTORY OF CONTEMPORARY ARCHITECTURE
COAR 031
An awareness of the spread and varied later directions of modernarchitecture across the world.
PO3, PO4
An understanding of architectural production from the 1960s as drivenby large scale changes across the world.
Familiarity with contemporary forces and directions in architectureacross the world.
An understanding of postindependence architecture in Indiacontemporaneous with the rest of the world, along with its ownparticular influences.
AR8621 BUILDING MATERIALS AND CONSTRUCTION V
COAR 032
Knowledge of glass, plastics, paints and finishes in buildingconstruction.
PO1, PO6, PO7Familiarity with advanced materials and construction techniques.
Ability to use advanced materials and construction techniques ininnovative ways.
AR8622 BUILDING SERVICES III
COAR 033
Familiarity with different air conditioning systems, their context of useand basics of planning involved.
PO1, PO4An understanding of fire safety, fire fighting, fire prevention andinstallations in buildings.
An understanding of mechanical transportation systems in a building.Ability to integrate services in buildings.
AR8611 - ARCHITECTURAL DESIGN V
COAR 034
Ability to critically understand and address issue of resources.
PO2, PO8Ability to balance diverse aspects/concerns of buildings by makinginformed choices and innovative design in the context of buildingswith intense or complex programmes.Ability to apply knowledge intensively in realms such as sustainablebuilt environment, services
AR8701 - LANDSCAPE DESIGN
COAR 035
Awareness of the role of landscape design with respect to macroscale of sustainability and ecology as well as in the micro scale ofshaping of outdoor environments.
PO1Knowledge about the elements of landscape design and their scope.
Sensitivity towards evolution of different garden and landscapedesign across time and context.
An understanding of landscape design with respect to site planningand different functional typologies of spaces.
AR8702 - URBAN DESIGN
COAR 036
Awareness of the evolution and characteristics of urban forms, theircomponents and interdependencies.
PO1, PO3, PO5,PO7, PO8
Understanding of urbanism through theories, aspects, issues andsolutions.
Knowledge of ways to look at and interpret urbanism today.
AR8703 - SPECIFICATION, ESTIMATION AND VALUATION
COAR 037
An understanding of the art of building construction throughspecification writing.
PO1, PO6, PO7Ability to work out the approximate estimate and detailed estimate forsmall scale building projects and low cost housing.
An understanding of valuation and budgeting.
AR8721 - ARCHITECTURAL DESIGN DETAILING
COAR 038
An understanding of all the aspects that go into the making of abuilding through study of drawings related to construction.
PO1, PO6, PO7Ability to resolve spatial concerns with technical aspects of a building.
Ability to design and detail components within a building.
AR8711 - ARCHITECTURAL DESIGN VI
COAR 039
Ability to understand the wider implication of design decisions andtheir interdependency with larger processes of society.
PO2, PO7, PO8Ability to take creative, critical and informed decisions in the contextof significant projects that could shape society in positive ways.
AR8801 HUMAN SETTLEMENTS PLANNING
COAR 040
Ability to understand morphology of settlements and their generatingforces and characteristics.
PO1, PO3An understanding of the role of planning processes in making positivechanges to settlements.
Awareness of planning interventions with respect to the current world.
AR8802 - PROFESSIONAL PRACTICE AND ETHICS
COAR 041
Knowledge of the role of professional and statutory bodies.
PO5, PO7An understanding of the provisions in Architects Act 1972.
An understanding of code of conduct.
Familiarity with the process and role of an architect in projectexecution.
AR8803 - URBAN HOUSING
COAR 042
Knowledge of various issues concerning housing & housingdevelopment in Indian & global context covering a cross section ofincome groups.
PO3, PO4Ability to appreciate socio-economic aspects in housing.
An understanding of housing standards, site planning principles,housing concepts and types.An understanding of key issues in housing today.
AR8811 - ARCHITECTURAL DESIGN VII
COAR 043
Ability to perceive and design buildings as contributing to/transforming the urban fabric.
PO2, PO3,PO4,PO7,PO8Ability to bring inclusivity into the architectural design process.
AR8911 PRACTICAL TRAINING
COAR 044
An overall idea of the nuances of architectural practice.
PO1, PO2, PO3,PO7,PO8
An understanding about the total process that goes into the making ofa building.
Maturity in using the experience gained from internship in the thesisproject.
AR8081 – THESIS
COAR 045
Skill, knowledge and expertise in the domain of architectural design.PO2,PO3,PO4,PO5,PO7Ability to handle a major architectural project independently through
all stages.AR8004 - INTERIOR DESIGN
COAR 046
An understanding of interior design as an integral part of architectureand as an interdisciplinary and allied field related to architecture.
PO3, PO6An overall exposure to the ways in which interior spaces can beenriched through the design of specific interior components.
AR8010 - CONTEMPORARY PROCESS IN ARCHITECTURAL DESIGN
COAR 047
An understanding of the effect of contemporary theories of media oncontemporary architectural design.
PO3, PO6
Insight into contemporary design process/theories and their relation tocomputation.Familiarity with architectural works derived from contemporaryprocesses.Ability to understand specific aspects of contemporary processesappropriate to a design situation.
AR8011 - ENERGY EFFICIENT ARCHITECTURE
COAR 048
Knowledge of alternative sources of energy and passive designconsiderations.
PO3, PO6An understanding of day lighting and natural ventilation in design.
Familiarity with future trends in creating sustainable built environment
AR8012 - ARCHITECTURAL CONSERVATION
COAR 049
An understanding of the importance of heritage, issues and practicesof conservation through case studies.
PO3, PO6Familiarity with historic materials and their properties, differenttechnologies for investigating masonry, foundation and also traditionaland modern repair methods.
AR8014 SUSTAINBLE ARCHITECTURE AND PLANNING
COAR 050
An understanding of the concepts of ecosystem, carrying capacity,ecological footprint, sustainability and sustainable development.
PO3, PO6
Awareness of emerging vulnerabilities of global warming and climatechange and an understanding of the contribution of building industrytowards the same.
Familiarity with approaches to achieving sustainable buildings andcommunities.
Knowledge of incentives and evaluation systems for green buildings
AR8017 - CONSTRUCTION AND PROJECT MANAGEMENT
COAR 051
Ability to understand a project from concept to commissioning,feasibility study & facility programme, design, construction tocommissioning.
PO3, PO6Ability to apply project management techniques in achievingobjectives of a project like client needs, quality, time & cost.
An understanding of principles of management, constructionscheduling, scope definition and team roles
AR8018 - EARTHQUAKE RESISTANT ARCHITECTURE
COAR 052
Ability to understand the formation and causes of earthquakes
PO3, PO6An understanding of the factors to be considered in the design ofbuildings and services to resist earthquakes.
MOHAMED SATHAK ENGINEERING COLLEGE,KILAKARAI-623806M.E APPLIED ELECTRONICS
POS.NO
PROGRAM OUTCOMES
PO 1 Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and anengineering specialization to the solution of complex engineering problems
PO 2 Problem analysis: Identify, formulate, review research literature, and analyze complex engineeringproblems reaching substantiated conclusions using first principles of mathematics, natural sciences, andengineering sciences
PO 3 Design/development of solutions: Design solutions for complex engineering problems and design systemcomponents or processes that meet the specified needs with appropriate consideration for the public healthand safety, and the cultural, societal, and environmental considerations.
PO 4 Conduct investigations of complex problems: Use research-based knowledge and research methodsincluding design of experiments, analysis and interpretation of data, and synthesis of the information toprovide valid conclusions
PO 5 Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineeringand IT tools including prediction and modeling to complex engineering activities with an understanding ofthe limitations
PO 6 The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal,health, safety, legal and cultural issues and the consequent responsibilities relevant to the professionalengineering practice
PO 7 Environment and sustainability: Understand the impact of the professional engineering solutions insocietal and environmental contexts, and demonstrate the knowledge of, and need for sustainabledevelopment
PO 8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of theengineering practice
PO 9 Individual and team work: Function effectively as an individual, and as a member or leader in diverseteams, and in multidisciplinary settings
PO 10Communication: Communicate effectively on complex engineering activities with theengineering community and with society at large, such as, being able to comprehend and writeeffective reports and design documentation, make effective presentations, and give and receiveclear instructions.
PO 11 Project management and finance: Demonstrate knowledge and understanding of the engineering andmanagement principles and apply these to one‘s own work, as a member and leader in a team, to manageprojects and in multidisciplinary environments
PO 12Life-long learning: Recognize the need for, and have the preparation and ability to engage inindependent and life-long learning in the broadest context of technological change.
PSOS.NO
PROGRAM SPECIFIC OUTCOMES
PSO I To critically evaluate the design and provide optimal solutions to problem areas inadvanced signal processing, digital system design, embedded systems and VLSIdesign.
PSO2 To enhance and develop electronic systems using modern engineering hardware andsoftware tools.
PSO 3 To work professionally and ethically in applied electronics and related areas.
problems.
Contribution 1:Reasonable 2: Significant 3: Strong
MAPPING OF PROGRAM SPECIFIC OBJECTIVES WITH PROGRAMME OUTCOMES
A broad relation between the Program Specific Objectives and theoutcomes is given in the following table
PROGRAMSPECIFICOBJECTIVES
PROGRAMME OUTCOMESPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
PSO1 3 3 2 2 1 1 1 2 3 2 2 3PSO2 3 2 3 2 3 - - 2 3 3 2 2PSO3 3 2 2 2 - 3 1 3 2 3 2 3
CO Sl. No COURSE OUTCOMESMapping of courseoutcome with PO and PSO
MA7157 APPLIED MATHEMATICS FOR ELECTRONICS ENGINEERS
COAE001
Concepts of fuzzy sets, knowledge representation usingfuzzy rules, fuzzy logic, fuzzy prepositions and fuzzyquantifiers and applications of fuzzy logic.
Apply various methods in matrix theory to solve system oflinear equations.
Computation of probability and moments, standarddistributions of discrete and continuous random variablesand functions of a random variable.
Conceptualize the principle of optimality and sub-optimization, formulation and computational procedure ofdynamic programming
Exposing the basic characteristic features of a queuingsystem and acquire skills in analyzing queuing models.
Using discrete time Markov chains to model computersystem
PO1,PO2,PO3,PO4,PO8,PO9,PO10,PO11,PO12
AP7101 ADVANCED DIGITAL SIGNAL PROCESSING
COAE002
Formulate time domain and frequency domain descriptionof Wide Sense Stationary process in terms of matrixalgebra and relate to linear algebra concepts.
State Parseval‟s theorem, W-K theorem, principle oforthogonality, spectral factorization
theorem, Widrow-Hoff LMS algorithm and Shannon‟ssampling theorem, and define linear
prediction, linear estimation, sample auto-correlation,period gram, bias and consistency.
Explain various noise types, Yule-Walker algorithm,parametric and non-parametric methods,
Wiener and Kalman filtering, LMS and RMS algorithms,Levinson Durbin algorithm, adaptive
noise cancellation and adaptive echo cancellation, speedverses convergence issues,
channel equalization, sampling rate change, sub bandcoding and wavelet transform.
Calculate mean, variance, auto-correlation and PSD forWSS stochastic processes, and
derive prediction error criterion, Wiener-Hoff equations,Parseval‟stheorem,W-K theorem and
normal equations. Design AR, MA, ARMA models, Weiner filter, anti
aliasing and anti imaging filters, and develop FIR adaptive filter and poly phase filter structures. Simulate spectral estimation algorithms and basic models
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
on computing platform
AP7102 ADVANCED DIGITAL LOGIC SYSTEM DESIGN
COAE003
Analyze and design sequential digital circuits Identify the requirements and specifications of the system
required for a given application Design and use programming tools for implementing digital
circuits of industry standards
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7103- ADVANCED MICROPROCESSOR AND MICROCONTROLLER
COAE004
To explain the features and important specifications ofmodern microprocessors
To explain the salient features CISC microprocessors basedon IA-32 bit and IA-64 bit architectures
To explain the salient features RISC processors based onARM architecture and different application profiles of ARMcore
To explain the features and important specifications ofmodern microcontrollers
To explain about ARM – M3 architecture and its salientfeatures
PO1,PO2,PO3,PO4,PO8,PO9,PO10,PO12
AP7111 ELECTRONICS SYSTEM DESIGN LABORATORY I
COAE005
Apply PIC, MSP430, „51 Microcontroller and 8086 forsystem design
Simulate QMF Design sensor using simulation tools Design and analyze of real time signal processing system
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7201 ANALYSIS AND DESIGN OF ANALOG INTEGRATED CIRCUITS
COAE006
Analyze high frequency concepts of single stage amplifiersand noise To analyze high frequency concepts of singlestage amplifiers and noise characteristic
Design the single stage amplifiers using PMOS and NMOSdriver circuits with different loads.
Study the different types of current mirrors and to know theconcepts of voltage and current associated with differentialamplifiers. reference circuits
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7202 ASIC AND FPGA DESIGN
COAE007 To analyze the synthesis, Simulation and testing of systems. To apply different high performance algorithms in ASICs. To discuss the design issues of SOC.
PO1,PO2,PO3,PO4,PO8,PO9,PO10,PO12
AP7203 EMBEDDED SYSTEMS
COAE008 Explain different protocols Discuss state machine and design process models Outline embedded software development tools and RTOS
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
CP7103 MULTI CORE ARCHITECTURES
COAE009 Explain design of memory hierarchies Assess Performance Issues and Synchronization issues Compare multi-core architectures
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7211 ELECTRONICS SYSTEM DESIGN LABORATORY II
COAE010
Utilize ARM with FPGA Demonstrate design of ALU in FPGA using VHDL and
Verilog Assess flash controller programming - data flash with erase,
verify and fusing Explain design, simulation and analysis of signal integrity
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7301 ELECTROMAGNETIC INTERFERENCE AND COMPATIBILITY
COAE011 Identify Standards Compare EMI test methods Discuss EMI mitigation techniques
PO1,PO2,PO3 ,PO8,PO9,PO10,PO12
DS7201 ADVANCED DIGITAL IMAGE PROCESSING
COAE012
Discuss image enhancement techniques Explain color image processing Compare image compression schemes
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
AP7003 Digital Control Engineering
COAE013 Describe continuous time and discrete time controllersanalytically.
PO1,PO2,PO3,PO4,PO8,PO9,PO10,PO12
Define and state basic analog to digital and digital to analogconversion principles.
Analyze sampled data control system in time and frequencydomains.
Design simple PI, PD, PID continuous and digital controllers. Develop schemes for practical implementation of
temperature and motor control systems.
VL7102 VLSI DESIGN TECHNIQUES
COAE014
Carry out transistor level design of the most importantbuilding blocks used in digital CMOS VLSI circuits.
Discuss design methodology of arithmetic buildingblock
Analyze tradeoffs of the various circuit choices for eachof the building block.
PO1,PO2,PO3,PO4,PO5,PO8,PO9,PO10,PO12
NC7101 HIGH PERFORMANCE NETWORKS
COAE015 Discuss advanced networks concepts Outline traffic modeling Evaluate network security
PO1,PO2,PO3 ,PO8,PO9,PO10,PO12
AP7013 PATTERN RECOGNITION
COAE016
Differentiate between supervised and unsupervised classifiers• Classify the data and identify the patterns.• Extract feature set and select the features from given
data set.• Apply fuzzy logic and genetic algorithms for
classification problems
PO1,PO2,PO3 ,PO8,PO9,PO10,PO12
NC7202- WIRELESS ADHOC AND SENOR NETWORKS
COAE017
Identify different issues in wireless ad hoc and sensornetworks.
To analyze protocols developed for ad hoc and sensornetworks.
To identify and address the security threats in ad hoc andsensor networks.
PO1,PO2,PO3 ,PO8,PO9,PO10,PO12
MOHAMED SATHAK ENGINEERING COLLEGE,KILAKARAI-623806M.E COMMUNICATION SYSTEMS
POS.NO
PROGRAM OUTCOMES
PO 1 Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and anengineering specialization to the solution of complex engineering problems
PO 2 Problem analysis: Identify, formulate, review research literature, and analyze complex engineeringproblems reaching substantiated conclusions using first principles of mathematics, natural sciences, andengineering sciences
PO 3 Design/development of solutions: Design solutions for complex engineering problems and design systemcomponents or processes that meet the specified needs with appropriate consideration for the public healthand safety, and the cultural, societal, and environmental considerations.
PO 4 Conduct investigations of complex problems: Use research-based knowledge and research methodsincluding design of experiments, analysis and interpretation of data, and synthesis of the information toprovide valid conclusions
PO 5 Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineeringand IT tools including prediction and modeling to complex engineering activities with an understanding ofthe limitations
PO 6 The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal,health, safety, legal and cultural issues and the consequent responsibilities relevant to the professionalengineering practice
PO 7 Environment and sustainability: Understand the impact of the professional engineering solutions insocietal and environmental contexts, and demonstrate the knowledge of, and need for sustainabledevelopment
PO 8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of theengineering practice
PO 9 Individual and team work: Function effectively as an individual, and as a member or leader in diverseteams, and in multidisciplinary settings
PO 10Communication: Communicate effectively on complex engineering activities with theengineering community and with society at large, such as, being able to comprehend and writeeffective reports and design documentation, make effective presentations, and give and receiveclear instructions.
PO 11 Project management and finance: Demonstrate knowledge and understanding of the engineering andmanagement principles and apply these to one‘s own work, as a member and leader in a team, to manageprojects and in multidisciplinary environments
PO 12Life-long learning: Recognize the need for, and have the preparation and ability to engage inindependent and life-long learning in the broadest context of technological change.
PSOS.NO
PROGRAM SPECIFIC OUTCOMES
PSO I To inculcate the ability in graduates to design and analyze the subsystems such as RF,Signal Processing, Modern communication systems and networks.
PSO2 To enhance problem solving skills in communication systems design using latesthardware and software tools.
PSO 3 To apply communication engineering principles and practices for developing productsfor scientific and business applications.
problems.
Contribution 1:Reasonable 2: Significant 3: Strong
MAPPING OF PROGRAM SPECIFIC OBJECTIVES WITH PROGRAMME OUTCOMES
A broad relation between the Program Specific Objectives and theoutcomes is given in the following table
PROGRAMSPECIFICOBJECTIVES
PROGRAMME OUTCOMESPO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
PSO1 3 2 1 1 1 1 1 - 1 - - 1PSO2 3 3 1 3 3 1 1 - 1 - - 1PSO3 3 3 2 3 2 3 2 2 2 2 2 2
COURSE OUTCOMES.NO
COURSE OUTCOME MAPPING OF CO’S WITH PO’S
MA5154 Applied Mathematics for Communication EngineersCOCU001.1 Concepts on vector spaces, linear transformation,
inner product spaces, eigen values and generalizedeigenvectors.
PO1,PO2,PO3,PO4,PO5,PO12
COCU001.2 Apply various methods in linear algebra to solvesystem of linear equations
COCU001.3 Could develop a fundamental understanding of linearprogramming models, able to develop a linearprogramming model from problem description, applythe simplex method for solving linear programmingProblems
COCU001.4 Numerical solution of differential equations by singleand multistep methods
COCU001.5 Computation of probability, random variables andtheir associated distributions, correlations andregression.
COCU001.6 Conceptualize the principle of optimality and suboptimization, formulation and computationalprocedure of dynamic programming
COCU001.7 Exposing the basic characteristic features ofa queuing system and acquire skills in analyzingqueuing models
COCU001.8 Using discrete time Markov chains to modelcomputer systems.
CU5191 ADVANCED RADIATION SYSTEMSCOCU002.1 Ability to understand antenna concepts
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO11,PO12COCU002.2 Ability to design antenna for various applications
COCU002.3 Knowledge of modern antenna designCU5151 ADVANCED DIGITAL COMMUNICATION TECHNIQUES
COCU003.1 Develop the ability to understand the concepts ofsignal space analysis for coherent and non coherentreceivers
PO1,PO2,PO3,PO4,PO5,PO6,PO9, PO12
COCU003.2 Conceptually appreciate different Equalizationtechniques
COCU003.3 Possess knowledge on different block codes andconvolutional codes
COCU003.4 Comprehend the generation of OFDM signals and thetechniques of multiuser detection.
AP5152 ADVANCED DIGITAL SIGNAL PROCESSINGCOCU004.1 Formulate time domain and frequency domain
description of Wide Sense Stationary processin terms of matrix algebra and relateto linear algebra concepts.
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11,PO12
COCU004.2 State Parseval‟s theorem, WK theorem, principle oforthogonality, spectral factorization theorem,
Widrow Hoff LMS algorithm and Shannon‟s samplingtheorem, and define linear prediction, linearestimation, sample auto-correlation, periodogram,bias and consistency.
COCU004.3 Explain various noise types, Yule-Walker algorithm,parametric and non-parametric methods,Wiener and Kalman filtering, LMS and RMSalgorithms, Levinson Durbin algorithm, adaptivenoise cancellation and adaptive echo cancellation,speed verses convergence issues, channelequalization, sampling rate change, subband codingand wavelet transform.
COCU004.4 Calculate mean, variance, auto-correlation and PSDfor WSS stochastic processes, and derive predictionerror criterion, Wiener-Hoff equations,Parseval‟stheorem, W-K theorem and normalequations.
COCU004.5 Design AR, MA, ARMA models, Weiner filter, antialiasing and anti imaging filters, and develop FIRadaptive filter and polyphase filter structures.
COCU004.6 Simulate spectral estimation algorithms and basicmodels on computing platform.
CU5192 OPTICAL NETWORKSCOCU005.1 Design and Analyze Network Components PO1,PO2,PO3,PO4,PO5,PO6,P
O7,PO9,PO12COCU005.2 Assess and Evaluate optical networksCU5161 COMMUNICATION SYSTEMS LABORATORY
COCU006.1 Measure and analyze various transmission lineparameters.
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO9,PO12
COCU006.2 Design Microstrip patch antennas.COCU006.3 Implement the adaptive filtering algorithmsCOCU006.4 To generate and detect digital communication signals
of various modulation techniques using MATLAB.COCU006.5 Evaluate cellular mobile communication technology
and propagation model.CU5291 ADVANCED WIRELESS COMMUNICATIONS SYSTEM
COCU007.1 Analyze MIMO systemPO1,PO2,PO3,PO4,PO5,PO6,P
O7,PO8,PO9, PO11,PO12COCU007.2 Discuss millimeter wave communicationCOCU007.3 Demonstrate software defined radio and cognitive
radioCU5201MIC AND RF SYSTEM DESIGN
COCU008.1 apability to design RF circuitsPO1,PO2,PO3,PO4,PO5,PO6,P
O8,PO9,PO10,PO11,PO12COCU008.2 To be able to analyze RF circuits
CU5292 ELECTROMAGNETICINTERFERENCEANDCOMPATIBILITY
COCU009.1 Identify Standards PO1,PO2,PO3,PO4,PO5,PO6,PO8,PO9,PO12COCU009.2 CompareEMI test methods
COCU009.3 Discuss EMImitigation techniquesCU5211 RF SYSTEM DESIGN LABORATORY
COCU010.1 Apply knowledge to identify a suitable architectureand systematically design an RF system.
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11,PO12
COCU010.2 Comprehensively record and report the measureddata, and would be capable of analyzing, interpretingthe experimentally measured data and produce themeaningful conclusions.
COCU010.3 Design and develop microstrip filters.CU5301MILLIMETER WAVE COMMUNICATIONS
COCU011.1 Ability to understand Millimeter devices and circuitsPO1,PO2,PO3,PO4,PO5,PO6,P
O7,PO8,PO9,PO11,PO12COCU011.2 Ability to design antenna for Millimeter wave
FrequenciesCOCU011.3 Knowledge of Millimeter wave technology
CU5091 ADVANCED SATELLITE COMMUNICATION AND NAVIGATION SYSTEMSCOCU012.1 Discuss satellite navigation and global positioning
system PO1,PO2,PO3,PO4,PO5,PO6,PO9,PO10,PO12COCU012.1 Outline deep space networks and inter planetary
missionsNC5251 COGNITIVE RADIO NETWORKS
COCU013.1 Compare MAC and network layer design for cognitiveradio
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO9,PO12
COCU013.2 Discuss cognitive radio for Internet of Things andM2M technologies
DS5291 ADVANCED DIGITAL IMAGE PROCESSINGCOCU014.1 Explain the fundamentals digital image
processing.
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11,PO12
COCU014.2 Describe image various segmentation andfeature extraction techniques for image analysis.
COCU014.3 Discuss the concepts of image registration andfusion.
COCU014.4 Explain 3D image visualization.EL5071 BROADBAND ACCESS TECHNOLOGIES
COCU015.1 To able to design systems meeting out therequirements of the recent standards.
PO1,PO2,PO3,PO4,PO5,PO6,PO9,PO10,PO12
COCU015.2 To meet out the industry requirements for manpower in next generation networks.
COCU015.3 To be able to contribute towards theenhancement of the existing wirelessTechnologies.CU5097 WIRELESS ADHOC AND SENSOR NETWORKS
COCU016.1 Identify different issues in wireless ad hoc andsensor networks.
PO1,PO2,PO3,PO4,PO5,PO6,PO9,PO10,PO12
COCU016.2 To analyze protocols developed for ad hoc andsensor networks.
COCU016.3 To identify and address the security threats in adhoc and sensor networks.
COCU016.4 Establish a Sensor network environment for differenttype of applications
MP5092 SOFT COMPUTING TECHNIQUES
COCU017.1 Knowledge on concepts of soft computationaltechniques.
PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11,PO12
COCU017.2 Able to apply soft computational techniques tosolve various problems
COCU017.3 Motivate to solve research oriented problems.
MOHAMED SATHAK ENGINEERING COLLEGEDEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
Vision:
To emerge as a “center for excellence” offering technical education andresearch opportunities of very high standards to students, develop total personalityof the individual, and instill high levels of discipline and strive to set globalstandards, making our students technologically superior and ethically strong, whoin turn shall contribute for the advancement of society and human kind.
Mission:
To dedicate and commit ourselves to achieve, sustain and foster unmatchedexcellence in technical education. To this end, we will pursue continuousdevelopment of infrastructure and enhance state of art equipment to provide ourstudents a technologically up-to-date and intellectually inspiring environment oflearning, research, creativity, innovation and professional activity and inculcate inethical and moral values.
Postgraduate2017 Regulation
CHOICE BASED CREDIT SYSTEM
PO SL.NO PROGRAM OUTCOMES
PO1 Engineering knowledge: Apply the knowledge ofmathematics, science, engineering fundamentalsand an engineering specialization to the solution ofcomplex engineering problems.
PO2 Problem analysis: Identify, formulate, reviewresearch literature, and analyze complexengineering problems reaching substantiatedconclusions using first principles of mathematics,natural sciences, and engineering sciences.
PO3 Design/development of solutions: Design solutionsfor complex engineering problems and designsystem components or processes that meet thespecified needs with appropriate consideration forthe public health and safety, and the cultural,societal, and environmental considerations.
PO4 Conduct investigations of complex problems: Useresearch-based knowledge and research methodsincluding design of experiments, analysis andinterpretation of data, and synthesis of theinformation to provide valid conclusions.
PO5 Modern tool usage: Create, select, and applyappropriate techniques, resources, and modernengineering and IT tools including prediction andmodeling to complex engineering activities with anunderstanding of the limitations.
PO6 The engineer and society: Apply reasoninginformed by the contextual knowledge to assesssocietal, health, safety, legal and cultural issuesand the consequent responsibilities relevant to theprofessional engineering practice.
PO7 Environment and sustainability: Understand theimpact of the professional engineering solutions insocietal and environmental contexts, anddemonstrate the knowledge of, and need forsustainable development.
PO8 Ethics: Apply ethical principles and commit toprofessional ethics and responsibilities and normsof the engineering practice.
PO9 Individual and team work: Function effectively asan individual, and as a member or leader in diverseteams, and in multidisciplinary settings.
PO10 Communication: Communicate effectively oncomplex engineering activities with theengineering community and with society at large,such as, being able to comprehend and writeeffective reports and design documentation, make
effective presentations, and give and receive clearinstructions.
PO11 Project management and finance: Demonstrateknowledge and understanding of the engineeringand management principles and apply these toone‘s own work, as a member and leader in ateam, to manage projects and in multidisciplinaryenvironments.
PO12 Life-long learning: Recognize the need for, andhave the preparation and ability to engage inindependent and life-long learning in the broadestcontext of technological change.
MAPPING OF PROGRAMME EDUCATIONAL OBJECTIVES WITH PROGRAMMEOUTCOMES:A broad relation between the programme objective and the outcomes is given in the followingtable
ProgrammeEducationalObjectives
Programme Outcomes
A B C D E F G H I J K L
1 3 3 3 3 3 1 3 3 1 2 3
2 3 2 3 3 3 3 1 2 3 3 2
3 1 3 2 3 2 3 3 3 1
independent and life-long learning in the broadest context of technological change.
PSO SL.NO PROGRAM SPECIFIC OUTCOMES (PSOs)PSO1 To analyze, design and develop computing
solutions by applying foundational concepts ofComputer Science and Engineering.
PSO2 To apply software engineering principles andpractices for developing quality software forscientific and business applications.
PSO3 To adapt to emerging Information andCommunication Technologies (ICT) to innovateideas and solutions to existing/novel problems.
Contribution 1: Reasonable 2: Significant 3:Strong
MAPPING OF COURSE OUTCOMES WITH PROGRAMME OUTCOMES
A broad relation between the Course Outcomes and Programme Outcomes is given in thefollowing table
Contribution 1: Reasonable 2:Significant 3:Strong
MAPPING OF COURSE OUTCOMES WITH PROGRAMME OUTCOMES
A broad relation between the Course Outcomes and Programme Outcomes is given in thefollowing table
COURSE OUTCOMES Mapping of course outcome with PO and PSO
MA5160-Applied Probabilityand Statistics
• Basic probability axioms and rulesand the moments of discrete andcontinuous random variables.
• Consistency, efficiency andunbiasedness of estimators, methodof maximum likelihood estimationand Central Limit Theorem.
• Use statistical tests in testinghypotheses on data.
• Perform exploratory analysis ofmultivariate data, such asmultivariate normal density,
PO1(3),PO2(3),PO3(2),PO4(2),PO5(1),PO6(1),PO7(1),PO8(1),PO9(1),PO10(1),PO11(3),PO12(1)
Contribution 1: Reasonable 2:Significant 3:StrongContribution 1: Reasonable 2:Significant 3:StrongContribution 1: Reasonable 2:Significant 3:Strong
Contribution 1: Reasonable 2:Significant 3:StrongContribution 1: Reasonable 2:Significant 3:Strong
PROGRAMSPECIFICOBJECTIVES
PROGRAMME OUTCOMES
A B C D E F G H I J K L
1 3 1 2 3 3 1 1 1 2 1
2 3 3 3 3 3 2 1 1 3
3 1 2 3 3 3 2 1 1 2
calculating descriptive statistics,testing for multivariate normality.
CP5151-Advanced DataStructures and Algorithms
• Design data structures andalgorithms to solve computingproblems• Design algorithms using graph
structure and various stringmatching algorithms to solve real-life problems
• Apply suitable design strategy forproblem solving
PO1(3),PO2(3),PO3(3),PO4(3),PO5(1),PO6(1),PO7(1),PO8(1),PO9(1),PO1O(1),PO11(1),PO12(3)
CP5152-Advanced ComputerArchitecture
• Identify the limitations of ILP.• Discuss the issues related to
multiprocessing and suggestsolutions
• Point out the salient features ofdifferent multicore architecturesand how they exploitparallelism.
• Discuss the various techniquesused for optimising the cacheperformance
• Design hierarchal memorysystem
• Point out how data levelparallelism is exploited inarchitectures
PO1(3),PO2(3),PO3(3),PO4(3),PO5(1),PO6(1),PO7(1),PO8(1),PO9(1),PO10(1),PO11(1),PO12(3)
CP5153-Operating SystemInternals
• Identify the limitations of ILP.• Discuss the issues related to
multiprocessing and suggestsolutions
• Point out the salient features ofdifferent multicore architecturesand how they exploitparallelism.
• Discuss the various techniquesused for optimising the cacheperformance
• Design hierarchal memorysystem
• Point out how data levelparallelism is exploited inarchitectures
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(1),PO9(1),PO10(2),PO11(1),PO12(1)
CP5154-Advanced SoftwareEngineering
• Understand the advantages ofvarious Software DevelopmentLifecycle Models
• Gain knowledge on projectmanagement approaches as well ascost and schedule estimationstrategies
• Perform formal analysis onspecifications
• Use UML diagrams for analysisand design
• Architect and design usingarchitectural styles and designpatterns
• Understand software testingapproaches
• Understand the advantages ofDevOps practices
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(1),PO9(1),PO10(2),PO11(1),PO12(1)
CP5191-Machine LearningTechniques
• Distinguish between, supervised,unsupervised and semi-supervisedlearning
• Apply the appropriate machine learningstrategy for any given problem
• Suggest supervised, unsupervised orsemi-supervised learning algorithmsfor any given problem
• Design systems that uses the appropriategraph models of machine learning
Modify existing machine learningalgorithms to improveclassification efficiency
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(3),PO8(1),PO9(1),PO10(2),PO11(1),PO12(2)
CP5161-Data StructuresLaboratory
• Design and implement basic andadvanced data structures extensively.• Design algorithms using graphstructures• Design and develop efficient algorithmswith minimum complexity using designtechniques.
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(1),PO9(3),PO10(3),PO11(2),PO12(1)
CP5201-Network Design andTechnologies
• Identify the components requiredfor designing a network• Design a network at a high-levelusing different networkingtechnologies• Analyze the various protocols ofwireless and cellular networks• Discuss the features of 4G and 5Gnetworks• Experiment with software definednetworks
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(3),PO7(2),PO8(1),PO9(3),PO10(1),PO11(1),PO12(2)
CP5291-Security Practices
• Understand the core fundamentalsof system security
• Apply the security concepts relatedto networks in wired and wirelessscenario
• Implement and Manage the securityessentials in IT Sector
• Able to explain the concepts ofCyber Security and encryptionConcepts
• Able to attain a through knowledgein the area of Privacy and Storagesecurity and related Issues.
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(3),PO7(3),PO8(3),PO9(1),PO10(1),PO11(1),PO12(2)
CP5292-Internet of Things
• Analyze various protocols for IoT• Develop web services to
access/control IoT devices.• Design a portable IoT using
Rasperry Pi• Deploy an IoT application and
connect to the cloud.• Analyze applications of IoT in real
time scenario
PO1(3),PO2(3),PO3(3),PO4(3),PO5(1),PO6(1),PO7(1),PO8(3),PO9(1),PO10(1),PO11(1),PO12(2)
CP5293-Big Data Analytics
• Understand how to leverage theinsights from big data analytics
• Analyze data by utilizing variousstatistical and data miningapproaches
• Perform analytics on real-timestreaming data
• Understand the various NoSqlalternative database models
PO1(3),PO2(3),PO3(3),PO4(2),PO5(3),PO6(3),PO7(1),PO8(1),PO9(1),PO10(1),PO11(1),PO12(2)
CP5092-Cloud Computing andTechnologies
• Employ the concepts of storagevirtualization, network virtualizationand its management• Apply the concept of virtualizationin the cloud computing• Identify the architecture,infrastructure and delivery models ofcloud computing• Develop services using Cloudcomputing• Apply the security models in thecloud environment
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(2),PO8(2),PO9(2),PO10(1),PO11(1),PO12(2)
CP5072-Software architectureand design
• Understand the need of softwarearchitecture for sustainabledynamic systems.
• Have a sound knowledge ondesign principles and to applyfor large scale systems
• Design architectures fordistributed heterogeneoussystems
• Have good knowledge on serviceoriented and model drivenarchitectures and the aspectoriented architecture.
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(1),PO9(2),PO10(1),PO11(1),PO12(2)
• Have a working knowledgeto develop appropriatearchitectures throughvarious case studies.
CP5261-Data AnalyticsLaboratory
• Process big data using Hadoopframework
• Build and apply linear and logisticregression models
• Perform data analysis with machinelearning methods
• Perform graphical data analysis
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(3),PO8(1),PO9(2),PO10(1),PO11(2),PO12(2)
CP5281-Term Paper Writingand Seminar
• Process big data using Hadoopframework
• Build and apply linear and logisticregression models
• Perform data analysis with machinelearning methods
• Perform graphical data analysis
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(3),PO7(1),PO8(1),PO9(2),PO10(1),PO11(2),PO12(2)
CP5005-Software QualityAssurance and Testing
• Perform functional andnonfunctional tests in the life cycleof the software product.• Understand system testing andtest execution process.• Identify defect preventiontechniques and software qualityassurance metrics.• Apply techniques of quality
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(3),PO8(1),PO9(1),PO10(1),PO11(1),PO12(2)
assurance for typical applications.
CP5074-Social NetworkAnalysis
• Work on the internals componentsof the social network• Model and visualize the socialnetwork• Mine the behaviour of the users inthe social network• Predict the possible next outcomeof the social network• Apply social network in real timeapplications
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(1),PO9(2),PO10(1),PO11(1),PO12(2)
CP5076-Information StorageManagement
• Select from various storagetechnologies to suit for requiredapplication.• Apply security measures tosafeguard storage & farm.• Analyse QoS on Storage.
PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(3),PO8(1),PO9(1),PO10(1),PO11(1),PO12(2)
CP5311-Project Work Phase - I PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(3),PO9(3),PO10(3),PO11(3),PO12(1)
CP5411-Project Work Phase – II PO1(3),PO2(3),PO3(3),PO4(3),PO5(3),PO6(1),PO7(1),PO8(3),PO9(3),PO10(3),PO11(3),PO12(1)
M.E- POWER SYSTEM ENGINEERING
PROGRAM EDUCATIONAL OBJECTIVES (PEOS):
i. To prepare the students to have career in the electrical power industry/researchorganization/teaching.
ii. To provide good foundation in mathematics and computational technology to analyze andsolve problems encountered in electrical power industry.
iii. Pursue lifelong learning and continuous improvement of their knowledge in the electricalpower industry.
iv. To understand the national and global issues related to the electrical power industry and tobe considerate of the impact of these issues on the environment and within different cultures.
v. Apply the highest professional and ethical standards to their activities in the electrical powerindustry.
vi. To provide the students with knowledge to be involved with the technology advancementsand future developments in power generation, control and management as well as withalternate and new energy resources.
2. PROGRAM OUTCOMES (PO):
On successful completion of the programme,
1. Graduates will be able to demonstrate the principles and practices of the electrical powerindustry regarding generation, transmission, distribution and electrical machines and theircontrols.
2. Graduates will be able to apply their knowledge of electrical power principles, as well asmathematics and scientific principles, to new applications in electrical power.
3. Graduates will be able to perform, analyze, and apply the results of experiments to electricalpower application improvements.
4. Graduates will be able to look at all options in design and development projects andcreativity and choose the most appropriate option for the current project.
5. Graduates will function effectively as a member of a project team.
6. Graduates will be able to identify problems in electrical power systems, analyze theproblems, and solve them using all of the required and available resources.
7. Graduates will be able to effectively communicate technical project information in writing orin personal presentation and conversation.
8. Graduates will be engaged in continuously learning the new practices, principles, andtechniques of the electrical power industry.
9. Graduates will work on application software packages for power system analysis and design.10. Graduates will develop indigenous software packages for power system planning andoperational problems of utilities.
ProgramEducation
alObjective
Program Outcome
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10
i. ✔ ✔ ✔ ✔ ✔ ✔ ✔ ✔ ✔ ✔
ii. ✔ ✔ ✔ ✔ ✔ ✔ ✔ ✔
iii. ✔
iv. ✔ ✔ ✔ ✔ ✔ ✔
v. ✔ ✔ ✔ ✔ ✔
vi. ✔ ✔ ✔ ✔ ✔ ✔ ✔ ✔
COSl. No COURSE OUTCOMES
Mapping of courseoutcome with PO
MA7163 APPLIED MATHEMATICS FOR ELECTRICAL ENGINEERS
To apply the concepts of Matrix theoryTo solve linear programming problemsTo apply the basic concepts of one dimensional random variablesin electrical engineering problems.To explain calculus of variationsTo solve problems using Fourier transforms
PO 2
PS 7101 ADVANCED POWER SYSTEM ANALYSISTo discuss different techniques dealing with sparse matrix forlarge scale power systems.To explain different methods of power flow solutions.To solve optimal power flow problem.To analyze various types of short circuit faultsTo demonstrate different numeric al integration methods andfactors influencing transientstability
PO 1, PO 3, PO 6,PO 9, PO10
PS 7102 - POWER SYSTEM OPERATION AND CONTROL
To explain the terms related with power system operation and toexplain various methods of load forecastingTo model and analyze the single area and two area thermal powersystemTo discuss the hydro-thermal scheduling problemTo solve unit commitment and economic dispatch problemsTo explain the function of SCADA and EMS
PO 1, PO 3, PO 6,PO 9, PO10
PS 7103 ELECTRICAL TRANSIENTS IN POWER SYSTEMS
To explain the sources and effects of lightning, switching andtemporary over voltages.To model and estimate the over voltages in power systemTo develop travelling wave equation and to analyze travellingwave.To analyze the insulation coordination of power system andprotective devices.To develop the modeling of power system for transient overvoltages using Electromagnetic Transient Program (EMTP).
PO 1, PO 2,PO 3, PO 6,PO 9, PO10
CL7103 SYSTEM THEORY
To develop state model for linear time invariant and time variantsystem and non-linear systemTo solve the state equationTo analyze controllability and observability of the system usingstate modelTo analyze the stability of the linear time invariant, time variantand nonlinear systems using Lyapunov, Krasovskii and Variable-Gradiant Methods.To design state and output feedback controllers and estimators
PO 1, PO 6,PO 9
PS7111-POWER SYSTEM SIMULATION LABORATORY
To develop coding to solve power flow problem using NR and GSmethodsTo develop coding to calculate generation shift factor and lineoutage factorTo develop coding to solve UC and ED problemsTo analyze transient stability of SMIB system using MATLABand to analyze the switching surges using EMTPTo simulate and analyze voltage source invertersTo analyze the functions of protective relays using simulation
PO 1, PO 8,PO 9,PO 10
PS7201-POWER SYSTEM DYNAMICS
To develop dynamic modeling of a synchronous machine.To describe the modeling of excitation and speed governingsystem.To analyze the small signal stability without controllersTo analyze the small signal stability with controllersTo explain the methods to enhance the small signal stability ofthe power system..
PO 1, PO 3, PO 6,PO 9, PO10
PS7202-FLEXIBLE AC TRANSMISSION SYSTEMS
To explain the necessity and various types of FACTS controllersTo develop model of SVC and describe the applications SVCTo analyze TCSC and GCSCTo develop the modeling and analyze the voltage sourceconverter based FACTS controllersTo describe the coordination between the various FACTScontrollers
PO 1, PO 3, PO 6,PO 9, PO10
PS7203-ADVANCED POWER SYSTEM PROTECTIONTo explain the construction and principle of operation of overcurrent relay and apply over current protection for feedersTo list various faults occur in transformers and generators and toselect appropriate protective scheme for transformers andgeneratorsTo apply distance and carrier current protection schemes fortransmission linesTo discuss the differential scheme for bus bar protectionTo explain the concept of numerical protection and to apply fortransformer and distance protection
PO 1, PO 3, PO 6,PO 9, PO10
PS7204-RESTRUCTURED POWER SYSTEM
To explain the importance of restructuring of Power Systems,different market models and the function of ISO role in powermarket.To discuss the Concepts of Transmission Congestion and tocalculate ATCTo Calculate Locational marginal pricing and explain thesignificance of Financial Transmission rights.To define Ancillary services management and analyzetransmission pricing issues.To outline the reform initiatives taken by Indian Government,Electricity act 2003 and open access issues.
PO 1, PO 3, PO 6,PO 9, PO10
PS7211-ADVANCED POWER SYSTEM SIMULATION LABORATORYTo develop simulation model of SMIB system and multi machinesystem for small signal stability analysisTo develop simulation model for two bus system with STATCOMand to analyze load flow and transient stability using thesimulated modelTo develop simulation model for wind energy conversion systemand to analyze its response.To develop simulation induction motor model and to analyze itsstarting responseTo develop coding to calculate ATC.
PO 8,PO 9, PO10
PS7311-PROJECT WORK (PHASE I)To independently carry out research /investigation to identify andsolve practical problemsTo write and present a report
PO 4,PO 5, PO 7
PS7411-PROJECT WORK (PHASE II)To identify the problem in the existing power system and todevelop software / hardware solution by doing research.To write and present a substantial technical report
PO 4,PO 5, PO 7
PX7103-ANALYSIS AND DESIGN OF INVERTERSTo describe the operation of different single phase invertersTo apply three phase voltage source inverters to various drivesystemsTo explain the operation of various current source inverters and todesign PWM techniques for current source invertersTo develop various multi level inverters and impedance sourceinverters and PWM techniques for MLITo describe the operation of various resonant inverters..
PO 2, PO 6, PO 8
PX7204-POWER QUALITY
To describe various power quality issuesTo explain the concept of power and power factor in single phaseand three phase systems supplying non linear loadsTo discuss the conventional compensation techniques used forpower factor correction and load voltage regulation.To explain the active compensation techniques used for powerfactor correction.To analyze the active compensation techniques used for loadvoltage regulation.
PO 1, PO 2,PO3,PO 6
PS 7002 ENERGY MANAGEMENT AND AUDITINGTo explain the concept of Energy Management in domestic andindustrial applicationsTo develop energy conservation conceptTo explain and to apply Auditing methods to produce qualityoutput and to solve the problems
PO 1,PO 2, PO 3
PS7004 SOLAR AND ENERGY STORAGE SYSTEMSTo compare AC and DC transmission and explain modern DCtransmission systemTo analyze converters and system controlTo list the applications of multi terminal DC systemsTo solve power flow problemTo develop simulation model for Solar and Hybrid systems.
PO 2, PO 3,PO 6,PO 8
PX7301-POWER ELECTRONICS FOR RENEWABLE ENERGY SYSTEMS
To discuss and analyze the various types of renewable energysources.To analyze the performance of IG, PMSG, SCIG and DFIG.To design different power converters namely AC to DC, DC toDC and Ac to AC converters for renewable energy sources.To analyze various operating modes of wind electrical generatorsand solar energy systems.To develop maximum power point tracking algorithms.
PO 2, PO 3,PO 6,PO 8
PS7009-ADVANCED POWER SYSTEM DYNAMICSTo list the objectives of load forecasting and to apply the AItechnique for load forecastingTo determine the reliability of ISO and interconnected generationsystems.To analyze the transmission system reliabilityTo explain the expansion planning and capacitor placement problemin transmission system and radial distributions system.To design the primary and secondary distribution system and toexplain distribution system protective scheme and itscoordination.
PO 1, PO 2,PO 6
MOHAMED SATHAK ENGINEERING COLLEGEKILAKARAI – 623 806.
FACULTY OF CIVIL ENGINEERING REG 2017M.E – STRUCTURAL ENGINEERING
VISION:The vision of civil engineering department strives to become a nationally and internationally leading institution of higher learning, to
graduate highly qualified engineers, maintain nationally recognized research to provide quality professional and community service to the region
and the world.
MISSION:The mission of civil engineering department is to provide quality education to prepare nationally competitive students for a successful
career in civil engineering; to provide advanced skills, knowledge in state of art of research and design in sub areas of civil engineering for
graduate students; to inculcate moral and ethical values among the students; to provide service to the engineering profession and public; and to
have regular interaction with industry and offer solutions to their problems.
Programme Outcomes
PO.SL.NO
PROGRAM OUTCOMES
PO1 Graduates will demonstrate knowledge of mathematics, science and engineering.
PO2 Graduates will demonstrate an ability to identify, formulate and solve engineering problems.
PO3 Graduate will demonstrate an ability to design and conduct experiments, analyze and interpret data.
PO4 Graduates will demonstrate an ability to design a system, component or process as per needs and specifications.
PO5 Graduates will demonstrate an ability to visualize and work on laboratory and multidisciplinary tasks.
PO6 Graduate will demonstrate skills to use modern engineering tools, software and equipment to analyze problems.
PO7 Graduates will demonstrate knowledge of professional and ethical responsibilities.
PO8 Graduate will be able to communicate effectively in both verbal and written form.
PO9Graduate will show the understanding of impact of engineering solutions on the society and also will be aware of contemporary
issues.
PO10 Graduate will develop confidence for self education and ability for life-long learning.
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs) :
SL. NO PEOs
ITo prepare students to excel in research and to succeed in Structural engineering profession through global, rigorous post graduateeducation
IITo provide students with a solid foundation in mathematical, scientific and engineering fundamentals required to solve structuralengineering problems
IIITo train students with good scientific and engineering knowledge so as to comprehend, analyze, design, and create novel productsand solutions for the real life problems
IVTo inculcate students in professional and ethical attitude, effective communication skills, teamwork skills, multidisciplinaryapproach, and an ability to relate structural engineering issues to broader social context.
VTo provide student with an academic environment aware of excellence, leadership, written ethical codes and guidelines, and thelife-long learning needed for a successful professional career
PROGRAMME SPECIFIC OBJECTIVES (PSOs) :
SL. NO PSOs
1 An ability to recognize the importance of Structural Engineering professional development by pursuing doctorate studies
2 An ability to face competitive examinations that offer challenging and rewarding careers
3 An ability to apply design, develop and execution of projects in the construction of various Civil Engineering disciplines
4 An ability to become a good entrepreneur and to improve the management skills.
PEOs & POs
The B.E. Civil Engineering Program outcomes leading to the achievement of the objectives are summarized in the following Table.
PEOsProgramme Outcomes
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10
I
II
III
IV
V
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10
YEA
R 1
SEM 1
Advanced Mathematical Methods Advanced Concrete Structures Dynamics of Structures Theory of Elasticity and Plasticity Professional Elective IProfessional Elective II
SEM 2
Advanced Steel Structures Stability of Structures Experimental Techniques Finite Element Analysis of Structures Professional Elective IIIProfessional Elective IVAdvanced Structural Engineering Laboratory Practical Training I (2 weeks)
YEA
R 2 SEM 1
Earthquake Analysis and Design of Structures Professional Elective VProfessional Elective VIPractical Training II (2 weeks) Seminar Project Work (Phase I)
SEM 2 Project Work (Phase II) Practical Training III (2 weeks)
List the Course Outcomes (COs) and Mapping with Programme Outcomes (POs) and PROGRAMME SPECIFIC OBJECTIVES (PSOs)
S.No Course name Course outcomeMapping of PO's &
PSO’s
MA5151
ADVANCED MATHEMATICAL METHODS
1.
S101.1Application of Laplace and Fourier transforms to initial value, initial–boundary
value and boundary value problems in Partial Differential Equations.
PO1, PSO2,PSO3
S101.2Maximizing and minimizing the functional that occur in various branches of
Engineering Disciplines.
S101.3
Construct conformal mappings between various domains and use of conformal
mapping in studying problems in physics and engineering particularly to fluid flow
and heat flow problems.
S101.4Understand tensor algebra and its applications in applied sciences and engineering
and develops ability to solve mathematical problems involving tensors.
S101.5Competently use tensor analysis as a tool in the field of applied sciences and
related fields.
ST5101
ADVANCED CONCRETE STRUCTURES
2. S102.1
On completion of this course the students will have the confidence to design
various concrete structures and structural elements by limit state design and detail
the same for ductility as per codal requirements
PO4, PO5, PSO2
ST5102
DYNAMICS OF STRUCTURES
3. S103.1After completion of the course the students will have the knowledge of vibration
analysis of systems/structures with different degrees of freedom and they know the
PO1,PO2, PO3, PO5,
PSO3
method of damping the systems.
ST5103
THEORY OF ELASTICITY AND PLASTICITY
4.S104.1
On completion of this course the students will be familiar to the concept of elastic
analysis of plane stress and plane strain problems, beams on elastic foundation and
torsion on non- circular section.PO1, PO2, PSO1
S104.2 They will also have sufficient knowledge in various theories of failure and plasticity.
ST5201
ADVANCED STEEL STRUCTURES
5.S105.1
At the end of this course students will be in a position to design bolted and welded
connections in industrial structures. PO2, PO4, PO9, PSO4
S105.2 They also know the plastic analysis and design of light gauge steel structures.
ST5202
STABILITY OF STRUCTURES
6. S106.1
On completion of this course student will know the phenomenon of buckling and they
are in a position to calculate the buckling load on column, beam – column, frames and
plates using classical and approximate methods.
PO2, PO4, PO9,
PSO3
ST5203
EXPERIMENTAL TECHNIQUES
7.
S107.1At the end of this course students will know about measurement of strain, vibrations
and wind blow. PO2, PO3, PO4, PO6,
PO9, PSO1, PSO2S107.2
They will be able to analyze the structure by non-destructive testing methods and model
analysis.
ST5204
FINITE ELEMENT ANALYSIS OF STRUCTURES
8. S108.1
On completion of this course, the students will know the concept of finite element
analysis and enable to analyze framed structure, Plate and Shells and modify using
recent softwares.
PO1, PO6, PO9,
PSO2, PSO3
ST5211
ADVANCED STRUCTURAL ENGINEERING LABORATORY
9.
S109.1On completion of this laboratory course students will be able to cast and test RC beams
for strength and deformation behaviour. PO2, PO4, PO5, PO6,
PSO1, PSO3S109.2
They will be able to test dynamic testing on steel beams, static cyclic load testing of RC
frames and non-destruction testing on concrete.
ST5212
PRACTICAL TRAINING I (2 Weeks)
10. S110.1They are trained in tackling a practical field/industry orientated problem related to
Structural Engineering.
PO4, PO7,PO8,
PO10, PSO2
ST5301
EARTHQUAKE ANALYSIS AND DESIGN OF STRUCTURES
11.
S111.1At the end of this course the students will be able to understand the causes and effect of
earthquake. PO2,PO3, PSO2
PSO4S111.2
They will be able to design masonry and RC structures to the earthquake forces as per
the recommendations of IS codes of practice.
ST5311
PRACTICAL TRAINING II (2 Weeks)
12. S112.1They are trained in tackling a practical field/industry orientated problem related to
Structural Engineering.
PO4,PO7PO8,
PO10, PSO2
ST5312
SEMINAR
13. S113.1The students will be trained to face an audience and to tackle any problem during group
discussion in the Interviews.PO7, PSO4
ST5313
PROJECT WORK (PHASE I)
14. S114.1At the end of the course the students will have a clear idea of his/her area of work and
they are in a position to carry out the remaining phase II work in a systematic way.
PO2,PO4,PO6,
PO10, PSO3
ST5411
PRACTICAL TRAINING III (2 Weeks)
15. S115.1They are trained in tackling a practical field/industry orientated problem related to
Structural Engineering.
PO4,PO7,PO8,
PO10, PSO2
ST5412
PROJECT WORK (PHASE II)
16. S116.1On completion of the project work students will be in a position to take up any
challenging practical problem and find better solutions.
PO2,PO4,PO6,
PO10, PSO1, PSO3
ST5001
MAINTENANCE AND REHABILITATION OF STRUCTURES
17. S117.1
At the end of this course students will be in a position to point out the causes of distress
in concrete, masonry and steel structures and also they will be able to suggest the
remedial measures.
PO5,PO6,PO9
ST5002
PREFABRICATED STRUCTURES
18.
S118.1At the end of this course student will have good knowledge about the prefabricated
elements and the technologies used in fabrication and erection. PO2,PO3,PO4,
PO9,PO10, PSO2S118.2
They will be in a position to design floors, stairs, roofs, walls and industrial buildings,
and various joints for the connections.
ST5009
PRESTRESSED CONCRETE
19.
S119.1On completion of this course students will have sufficient knowledge on various
methods of prestressing and the concepts of partial pre-stressing.PO2,PO4,PO6,
PO9,PO10, PSO1,
PSO2S119.2They will be in a position to design beams, pipes, water tanks, posts and similar
structures.
ST5010
WIND AND CYCLONE EFFECTS ON STRUCTURES
20.
S120.1On completion of this course, students will be able to design high rise structures
subjected wind load, even structures exposed to cyclone.PO2,PO4,PO6,
PO9,PO10, PSO2,
PSO3S120.2Students will be conversant with various code provisions for the design of structures for
wind load.
ST5014
DESIGN OF STEEL CONCRETE COMPOSITE STRUCTURES
21.
S121.1At the end of this course students will be in a position to design composite beams,
columns, trusses and box-girder bridges including the related connections.PO2,PO4, PSO4
S121.2They will get exposure on case studies related to steel-concrete constructions of
buildings.
ST5017
COMPUTER AIDED ANALYSIS AND DESIGN
22. S123.1On completion of this course students will be familiar and will have sufficient knowledge
on the concepts and working principle of various structural engineering softwares
PO1,PO2,PO3,
PO4,PO5,PO6, PSO2
MOHAMED SATHAK ENGINEERING COLLEGE,KILAKARAI-623806M.E. THERMALENGINEERING
POS.NO
PROGRAM OUTCOMES
PO 1Graduates will demonstrate knowledge of mathematics, science andengineering
PO 2 Graduates will demonstrate an ability to identify , formulate and solve engineeringproblems.
PO 3 Graduates will demonstrate an ability to design and conduct experiments, analyze andinterpretdata.
PO 4 Graduates will demonstrate an ability a system, component or process as per needsand specifications.
PO 5 Graduates will demonstrate an ability to visualize and work on laboratory andmultidisciplinarytasks.
PO 6 Graduates will demonstrate skills to use modern engineering tools, software andequipment to analyzeproblems.
PO 7 Graduates will demonstrate knowledge of professional and ethicalresponsibilities.
PO 8 Graduates will be able to communicate effectively in both verbal and writtenform.
PO 9 Graduates will show the understanding of impact of engineering solutions on thesociety and also will be aware of contemporaryissues.
PO 10 Graduates will develop confidence for self education and ability for life-longlearning.
PSO S.NO PROGRAM SPECIFIC OUTCOMESPSO I To prepare students to excel in research or to succeed in Thermal engineering profession
through global, rigorous post graduateeducation.
PSO 2 To provide students with a solid foundation in mathematical, scientific and engineeringfundamentals required to solve thermal engineeringproblems.
PSO 3 To train students with good scientific and engineering knowledge so as to comprehend,analyze, design and create novel products and solutions for the real lifeproblems.
PSO 4 To inculcate students in professional and ethical attitude, effective communication skills,teamwork skills, multidisciplinary approach and an ability to relate thermal engineeringissues to broader socialcontext.
PSO / PO Mapping
PROGRAMMESPECIFICOUTCOME
Programme Outcomes
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10
PSO I ✓ ✓ ✓
PSO 2 ✓ ✓ ✓
PSO 3 ✓ ✓ ✓ ✓
PSO 4 ✓ ✓ ✓
PSO 5 ✓ ✓ ✓ ✓
COURSEOUTCOME S.NO
COURSE OUTCOME MAPPING OF CO’S WITHPO’S
MA5153ADVANCED NUMERICAL METHODS
COTE01
Solve an algebraic or transcendental equation,linear system of equations and differentialequations using an appropriatenumericalmethod.
Solving the initial boundary value problems andboundary value problems using finite differenceand finite elementmethods.
Selection of appropriate numerical methods tosolve various types of problems in engineeringand science in consideration with the minimumnumber of mathematical operations involved,accuracy requirements and availablecomputationalresources.
PO1,PO2,PO8,PO9,PO10
TE5151ADVANCEDHEATTRANSFER
COTE02
On successful completion of this course the student will beable to understand the fundamental concept of heattransfermechanisms.
Understand the application of numerical methods in heat
PO1,PO2,PO8,PO9,PO10
PSO 5 To provide student with an academic environment aware of excellence, leadership, writtenethical codes and guidelines and the life-long learning needed for a successfulprofessionalcareer.
transferapplications.Knowledge in combined heat and mass transfer mechanisms inengineapplications.
TE5101ADVANCED THERMODYNAMICS
COTE03
After the completion of the syllabus students able tounderstanding the application of thermodynamics in real gasbehaviour, availability analysis, statistical and irreversiblethermodynamics.
PO1,PO2,PO8,PO9,PO10
TE5102ADVANCED FLUID MECHANIC
COTE04
After the completion of the syllabus students able tofamiliarized about the ideal and viscous fluid flow, boundarylayer concepts and changes in properties in compressible flowand shockexpansion.
PO1,PO2,PO8,PO9,PO10
EY5152ENERGY RESOURCES
COTE05 Understand the commercial energy and renewable
energysources. Know the working principle of various energysystems.
PO1,PO2,PO4,PO8,PO10
TE5002ADVANCED INTERNAL COMBUSTION ENGINES
COTE06
On successful completion of this course the student willbe able to understand the working principle of ICengines, source of pollution formation and its controland recent trends in IC engines
PO1,PO2,PO4,PO10,PO5
TE511 THERMALENGINEERINGLABORATORY
COTE07
Know the various alternate fuels are available for ICengines Understand the thermodynamic relations for thermal engineeringdevices. Understand the working principle of different renewable energysources. Measure the properties of differentfuels
PO1,PO3,PO5,PO6,PO8PO9,PO10
TE5201INSTRUMENTATION FOR THERMAL ENGINEERING
COTE08
On the completion of the syllabus students get knowledgeabout the thermal engineering measuring devices, utilizationof computers in measurement applications and advancedmeasuringsystems.
PO1,PO3,PO4,PO8,PO10
TE5291ENVIRONMENTAL ENGINEERING AND POLLUTION CONTROL
COTE09
On successful Completion of this course the student will beunderstand Emission standards, waste management powergeneration and pollution from variousindustries.
PO2,PO3,PO7,PO8,PO9,PO10
TE5202FUELS AND COMBUSTION
COTE010 On successful Completion of this course the student will be
understand combustion, Types of Fuels,CombustionEquipments
PO1,PO2,PO4,PO8,PO10
EY5091NUCLEAR ENGINEERING
COTE011 Understanding fundamentals of nuclear reactors andreactions. Knowledge in nuclear fission chain reaction andfusion. Awareness about reprocessing of spent fuel and wastedisposal.
PO2,,PO4,PO7,PO8,PO10
IC5091AUTOMOBILE ENGINEERING
COTE012 Students able to get knowledge about vehicle structure,
auxiliary systems, transmission and recent alternativesources forvehicles.
PO2,,PO4,PO7,PO8,PO10
IC5251 ALTERNATIVE FUELS FORICENGINES
COTE013
On successful completion of this course thestudent will be able to understand the variousalternative fuel options available for conventionalfuels and their performance and emissioncharacteristics.
PO1,,PO2,PO4,PO8,PO10
TE5261THERMAL SYSTEMS SIMULATIONLABORATORY
COTE014
On successful completion of this course the student will haveknowledge in variousheattransfer simulation study ondifferent thermal engineering applications by using analysissoftwares.
PO2,,PO5,PO6,PO9,PO10
TE5211TECHNICAL SEMINAR – I
COTE015 Identify and choose appropriate topic ofrelevance. Assimilate literature on technical articles of specified topic
PO1,,PO2,PO6,PO9,PO10
and developcomprehension. Prepare technicalreport. Design, develop and deliver presentation on
specified technicaltopic
TE5301DESIGN AND OPTIMIZATION OF THERMALENERGYSYSTEMS
COTE016 On successful Completion of this course the
student will be understand modeling andoptimization of Thermalsystems.
PO1,PO2,PO3,PO8,PO10
TE5074ADVANCED POWER PLANT ENGINEERING
COTE017 Understanding the concept of various power plantcycles. Possible mitigation of anthropogenic emissions by
optimizing the power plantcycles/utilities.
PO2,PO3,PO8,PO10
TE5009 ADVANCED THERMAL STORAGETECHNOLOGIES
COTE018 On completing of the syllabus students can able
understand the principles of heat storage systems,regenerators and itsapplications.
PO1,PO2,PO3,PO8,PO10
TE5311TECHNICAL SEMINAR - II
COTE019
Develop the capacity to observe intelligently and proposeand defend opinions and ideas with tact andconviction.
Develop skills regarding professional communication andtechnical reportwriting.
Learn the methodology of publishing technicalpapers
PO1,PO2,PO6,PO9,PO10
TE5312PROJECT WORK PHASE – I
COTE020
The students’ would apply the knowledge gained from theoretical and practical courses in solvingproblems, so as to give confidence to the students to be creative, well planned, organized, coordinated intheir project work phase – II.
PO1,PO2,PO3,PO5,PO6,PO8,PO9,PO10
TE5411PROJECT WORK PHASE – II
COTE021
The students’ would apply the knowledge gained from theoretical and practical courses in solvingproblems, so as to give confidence to the students to be creative, well planned, organized,coordinatedproject outcome of the aimed work.
PO1,PO2,PO3,PO5,PO6,PO8,PO9,PO10
MOHAMED SATHAK ENGINEERING COLLEGEM.TECH- CHEMICAL ENGINEERING- REGULATION – 2013
POSL.NO
PROGRAM OUTCOMES (POs)
On successful completion of the ProgrammePO 1 Each graduate will have the ability to work as a member of multidisciplinary teams, and have an understanding of team
leadershipPO 2 Each graduate will have the ability to identify, formulate and solve chemical engineering problems using modern
engineering tools necessary for engineering practicePO 3 Student will be able to successfully apply advanced concepts of chemical engineering to the analysis, design and
development of chemical reactorsPO 4 Students will be able to analyze and interpret data of experiments.
PO 5 Will develop an ability to apply a multi-disciplinary approach to conceive, plan, design, and implement solutions tochemical engineering problems in the field of energy and sustainability.
PO 6 Will have the ability to express ideas and positions clearly and concisely, both orally and in writingPO 7 Will know the importance of safety and environmental aspects in the design and operation of process engineering systems
PO8 Will have the ability to accomplish basic design and optimization of process components and systems.PO9 Will have a complete working knowledge on advanced material and energy balances applied to chemical processes.
PSOSL.NO
PROGRAM SPECIFIC OUTCOMES (PSOs)
PSO1 Design solutions for complex engineering problems and design system components or processes that meet the specifiedneeds with appropriate consideration for the public health and safety, and the cultural, societal, and environmentalconsiderations.
PSO2 The chemical engineering post graduates have the skills and awareness to become socially, ethically and morallyresponsible individual for maintaining sustainability in our community which is facing challenges related to the field ofchemical engineering
COURSE NAME COURSE OUTCOMEMAPPING OFPO’S
CX7101-AppliedMathematics For ChemicalEngineering
Students should demonstrate competency in the following skills:Solve an algebraic or transcendental equation, linear system of equations anddifferential equations using an appropriate numerical method.Solving the initial boundary value problems and boundary value problemsusing finite difference and finite element methods.Selection of appropriate numerical methods to solve various types of problemsin engineering and science in consideration with the minimum number ofmathematical operations involved, accuracy requirements and availablecomputational resources
PO1 PO2
CX7102 Catalytic ReactionEngineering
Students would have gained knowledge on the selection of the reactor for thereaction and its design PO4 PO5
CX7103 Process ModelingAnd Simulation
Understanding the fundamental of modeling and simulation, system analysis andevaluation
PO4 PO5PSO2
CX7104 AdvancedThermodynamics
Students would have gained knowledge on equilibrium and non equilibriumthermophysical properties of fluids, solids and interfaces. PO2 PO3
CX7002 EnergyManagement
The students will be in a position to develop energy efficient processStudents will focus on the conservation of energy while developing industrialprocesses
PO5 PO7 PO9
CX7013 Waste WaterEngineering
Will be able to explain what wastewater is and describe how it is characterized.Will be able to justify why the treatment of wastewater is important and analyzethe strengths and limitations of the current standards and regulations.
PO7 PO9PSO1
CX7111InstrumentalMethods of Analysis Lab
Ability to synthesize and characterize, by chemical or physical means, bothorganic and inorganic compounds.Ability to perform both qualitative and quantitative analysis by chemical andinstrumental methods.Ability to perform experiments to obtain fundamental thermodynamic andkinetic data on chemical systems.
PO4 PO6
CX7201Advancedseparation process
The students will understand the importance of separation processes and itsapplications.The students will be in a position to select the best separation process for agiven problem.
PO3 PO4
CX7202Advanced processcontrol
Students get knowledge on control strategies of process variables and digitalfeedback controllers for automatic process control PO3 PO4
CX7203Chemical processdesign
The students will be in a position to choose and design of equipments PO8 PO9
CX7021Fundamentals ofNanoscience
Students will be in a position to useNanostructured catalysts such as TiO2 nanoparticles for water purification.Nanoparticles for treatment of chlorinated organic contaminants.Nanoparticles for treatment of arsenic, environmental risks of nanomaterials
PO5 PSO1
CX7025Total qualitymanagement
An ability to use the techniques, skills, and modern engineering tools necessaryfor engineering practice an ability to apply knowledge of mathematics,science, and engineering.
PSO1 PO1
CX7039Wastemanagement and energyrecovery
Upon completion of this course, the students would understand the importanceof waste management and concepts behind the methodologies to controlpollution, the importance of recycling and concepts behind the recovery ofenergy.
PO5 PO7 PO9
CX7211Chemical processsimulation lab
Understanding the fundamental of modeling and simulation, system analysis andevaluation PO4
CX7301AdvancedTransport phenomena
Students would gain the knowledge of fundamental connections betweenthe conservation laws in heat, mass, and momentum in terms of vector andtensor fluxes. The students would be able to understand the mechanism of fluidsin motion under different conditions.
PO4 PO5
CX7042 FluidizationEngineering
The students will understand the importance of fluidization engineering, solidmixing and its applications.
PO7
CX7055 Green Chemistryand Engineering
Upon completion of this course, the students would understand the fundamentalsof green chemistry and engineeringApplication of these principles during the design, retrofit and management ofchemical processes for a more sustainable chemical manufacturing
PO5
CX7311Project work(Phase I)
To apply the principles learned from various courses to solve real time problem.Students have to do a research -based project in the department or in an industryand submit a report at the end of Phase I.
PO3PO4PO6PO7PO8
CX7411Project work(Phase II)
The students will get confidence to solve challenging problems.Phase II of Project Work is a continuation of Phase I of Project. Students submita report at the end of Phase II.
PO3PO4PO6PO7PO8
MOHAMED SATHAK ENGINEERING COLLEGEDEPARTMENT OF MCA-REGULATION 2013
MASTER OF COMPUTER APPLICATION
VISIONTo permeate higher and quality education with value added Engineering, Technology and Management programmes to this
part of the forsaken rural areas providing all facilities available in modern cities and nurture the youths with internationalcompetencies and exemplary level of employability even under highly competitive environments.
MISSIONTo mobilize resources and equip the institution with men and materials of excellance.To see that the College becomes the pivotal centre of service to the rural society with the latest technology without
distributing their legacy of regional cultural values.To develop the College to become a demand University at the earliest with facilities for the advanced research and
development programmes on per with International standards.To invite international Universities to collaborate with the college on the issues of common interest and teaching and
learning sophistication.
PROGRAMME EDUCATIONAL OBJECTIVES
1. To excel in problem solving and programming skills in the various computing fields of IT industries2. To develop the ability to plan, analyze, design, code, test, implement & maintain a software product for real time
system3. To promote students capability to set up their own enterprise in various sectors of Computer applications4. To experience the students in finding solutions and developing system based applications for real time problems in
various domains involving technical, managerial, economical & social constraints5. To prepare the students to pursue higher studies in computing or related disciplines and to work in the fields of
teaching and research.
PROGRAMME OUTCOMES
1. Understand and Apply mathematical foundation, computing and domain knowledge for the conceptualization ofcomputing model of problems.
2. Identify, Analyze the computing requirements of a problem and Solve them using computing principles.3. Design and Evaluate a computer based system, components and process to meet the specific needs of applications.4. Use current techniques and tools necessary for complex computing practices.5. Use suitable architecture or platform on design and implementation with respect to performance6. Develop and integrate effectively system based components into user environment.7. Understand and commit to Cyber regulations and responsibilities in Professional computing practices.8. Recognize the need for and develop the ability to engage in continuous learning as a Computing professional.9. Apply the understanding of management principles with computing knowledge to manage the projects in
multidisciplinary environments.10. Communicate effectively with the computing community as well as society by being able to comprehend effective
documentations and presentations.11. Understand societal, environmental, health, legal, ethical issues within local and global contexts and the
consequential responsibilities relevant to professional practice.12. Function effectively in a team environment to accomplish a common goal.13. Identify opportunities and use innovative ideas to create value and wealth for the betterment of the individual and
society.14. Use knowledge to analyze, interpret the data and synthesis the information to derive valid conclusions using
research methods.15. Expertise in developing application with required domain knowledge.
.
MA7151 MATHEMATICAL FOUNDATIONS FOR COMPUTER APPLICATIONS
CO Sl.No Course Outcomes Mapping of course outcome with POsMA7151 .1 Acquire the basic knowledge of matrix, set theory, functions and
relations concepts needed for designing and solving problems
PO1,PO2,PEO2
MA7151 .2 Acquire the knowledge of logical operations and predicate calculusneeded for computing skill
MA7151 .3 Able to design and solve Boolean functions for defined problemsMA7151 .4 Apply the acquired knowledge of formal languages to the
engineering areas like Compiler DesignMA7151 .5 Apply the acquired knowledge of finite automata theory and design
discrete problems to solve by computers.
MC7101 COMPUTER ORGANIZATION
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7101.1 Able to design digital circuits by simplifying the Boolean functions
PO2,PO3,PO5
MC7101.2 Able to Understand the organization and working principle ofcomputer hardware components
MC7101.3 Able to understand mapping between virtual and physical memory
MC7101.4 Acquire knowledge about multiprocessor organization and parallelprocessing
MC7101.5 Able to trace the execution sequence of an instruction through theprocessor
MC7102 PROBLEM SOLVING AND PROGRAMMING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7102.1 Able to design a computational solution for a given problem.
PEO1,PO2,PO3
MC7102.2 Able to break a problem into logical modules that can be solved(programmed)
MC7102.3 Able to transform a problem solution into programs involvingprogramming constructs
MC7102.4 To write programs using structures, strings, arrays, pointesr andfiles for solving complex computational problem
MC7102.5 Able to introduce modularity using functions and pointers whichpermit ad hoc run-time polymorphism
MC7103 DATABASE MANAGEMENT SYSTEMS
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7103.1 Understand the basic concepts of the database and data models
PO3,PO5
MC7103.2 design a database using ER diagrams and map ER into Relations andnormalize the relations
MC7103.3 Acquire the knowledge of query evaluation to monitor theperformance of the DBMS.
MC7103.4 Develop a simple database applications using normalization.
MC7103.5 Acquire the knowledge about different special purpose databasesand to critique how they differ from traditional database systems.
MC7104 DATA STRUCTURES AND ALGORITHMS
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7104.1 Able to select and apply the data structure to suit any givenproblem
PO3,PO2,PO14
MC7104.2 Able to design their own data structure according to the applicationneed.
MC7104.3 Able to apply the algorithm design techniques to any of the realworld problem
MC7104.4 Able to develop any new application with the help of datastructures and algorithms.
MC7104.5 Able to write efficient algorithm for a given problem and able toanalyze its time complexity.
MC7201 OBJECT ORIENTED PROGRAMMING
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7201.1 Able to understand and design the solution to a problem using
object-oriented programming concepts
PO2,PO3,PO4
MC7201.2 Able to use proper class protection mechanism to provide security
MC7201.3 Able to demonstrate the use of virtual functions to implementpolymorphism
MC7201.4 Understand and implement the features of C++ includingtemplates, exceptions and file handling for providing programmedsolutions to complex problems
MC7201.5 Able to reuse the code with extensible Class types, User-definedoperators and function overloading
MC7202 WEB PROGRAMMING ESSENTIALS
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7202.1 Acquire knowledge about functionalities of world wide web
PO10,PO14,PO15
MC7202.2 Explore markup languages features and create interactive webpages using them
MC7202.3 Learn and design Client side validation using scripting languages
MC7202.4 Acquire knowledge about Open source JavaScript libraries
MC7202.5 Able to design front end web page and connect to the back enddatabases.
MC7203 SYSTEM SOFTWARE
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7203.1 Able to trace the path of a source code to object code and the to
executable file
PO2,PO3,PO8MC7203.2 To design the front end of the compiler-scanner, parser
MC7203.3 Understand and identify the relationship between system softwarearchitecture
MC7203.4 Analyze the functions of assembler, compiler, linker, and loaders
MC7203.5 Know the design and implementation of loaders and linkers
MC7204 OPERATING SYSTEMS
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7204.1 Able to understand the operating system components and its
services
PO5,PO3
MC7204.2 Implement the algorithms in process management and solving theissues of IPC
MC7204.3 Able to demonstrate the mapping between the physical memoryand virtual memory
MC7204.4 Able to understand file handling concepts in OS perspective
MC7204.5 Able to understand the operating system components and serviceswith the recent OS
MC7205 COMPUTER GRAPHICS AND MULTIMEDIA
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7205.1 Gain proficiency in 3D computer graphics API programming
PO10,PO12
MC7205.2 Enhance the perspective of modern computer system withmodeling, analysis and interpretation of 2D and 3D visualinformation.
MC7205.3 Able to understand different realizations of multimedia toolsMC7205.4 Able to develop interactive animations using multimedia tools
MC7205.5 Gain the knowledge of different media streams in multimediatransmission
MC7301 COMPUTER NETWORKS
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7301.1 Able to trace the flow of information from one node to anothernode in the network
PO4,PO6
MC7301.2 Able to Identify the components required to build different types ofnetworks
MC7301.3 Able to understand the functionalities needed for datacommunication into layers
MC7301.4 Able to choose the required functionality at each layer for givenapplication
MC7301.5 Able to understand the working principles of various applicationprotocols Acquire knowledge about security issues and servicesavailable
MC7302 EMBEDDED SYSTEMS
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7302.1 Able to design and control real time control systems
PO3,PO4,PO5
MC7302.2 Able to understand the functionality of 8085 microprocessor
MC7302.3 Able incorporate enhanced features in the embedded systemsthrough software
MC7302.4 Able to rectify minor problems by troubleshooting
MC7302.5 Acquire the knowledge of real time operating system andimplement real time functions
MC7303 SOFTWARE ENGINEERING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7303.1 Get an insight into the processes of software development
PO6,PO8,PO9
MC7303.2 Able to understand the problem domain for developing SRS andvarious models of software engineering
MC7303.3 Able to Model software projects into high level design usingDFD,UML diagrams
MC7303.4 Able to Measure the product and process performance usingvarious metrics
MC7303.5 Able to Evaluate the system with various testing techniques andstrategies
MC7304 PROFESSIONAL ETHICS
CO Sl.No Course Outcomes Mapping of course outcome with POsMC7304.1 Helps to examine situations and to internalize the need for applying
ethical principles, values to tackle with various situations.
PO7,PO11
MC7304.2 Develop a responsible attitude towards the use of computer as wellas the technology
MC7304.3 Able to envision the societal impact on the products/ projects theydevelop in their career
MC7304.4 Understanding the code of ethics and standards of computerprofessionals.
MC7304.5 Analyze the professional responsibility and empowering access toinformation in the work place.
MC 7305 INTERNET PROGRAMMING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7305.1 Able to understand the internet standards and recent webtechnologies like Conferencing, newsgroup etc
PO2,PO4,PO15
MC7305.2 Able to implement, compile, test and run Java program
MC7305.3 Able to make use of hierarchy of Java classes to provide a solutionto a given set of requirements found in the Java API
MC7305.4 Able to understand the components and patterns that constitute asuitable architecture for a web application using java servlets
MC7305.5 Able to demonstrate systematic knowledge of backend and frontend by developing an appropriate application
MC7401 RESOURCE MANAGEMENT TECHNIQUES
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7401.1 Understand and apply linear, integer programming to solveoperational problem with constraints
PO1,PO2MC7401.2 Apply transportation and assignment models to find optimal
solution in warehousing and Travelling,MC7401.3 To prepare project scheduling using PERT and CPMMC7401.4 Identify and analyze appropriate queuing model to reduce the
waiting time in queue.MC7401.5 Able to use optimization concepts in real world problems
MC7402 OBJECT ORIENTED ANALYSIS AND DESIGN
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7402.1 Understand the basic concepts to identify state & behavior of realworld objects
PO5,PO6
MC7402.2 Able to learn the various object oriented methodologies and choosethe appropriate one for solving the problem with the help ofvarious case studies
MC7402.3 Understand the concept of analysis, design & testing to develop adocument for the project
MC7402.4 Able to implement analysis, design & testing phases in developing asoftware project
MC7402.5 Able to understand the testing strategies and know aboutautomated testing tools
MC7403 DATA WAREHOUSING AND DATA MINING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7403.1 Store voluminous data for online processing Preprocess the data formining applications
PO2,PO3,PO5MC7403.2 Apply the association rules for mining the data Design and deploy
appropriate classification techniquesMC7403.3 Cluster the high dimensional data for better organization of the data
Discover the knowledge imbibed in the high dimensional systemMC7403.4 Evolve Multidimensional Intelligent model from typical system
MC7403.5 Evaluate various mining techniques on complex data objects
MC7404 NETWORK PROGRAMMING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7404.1 To write socket API based programs
PO4,PO15MC7404.2 To design and implement client-server applications using TCP and
UDP socketsMC7404.3 To analyze network programs
MC7501 WEB APPLICATION DEVELOPMENT
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7501.1 Knows how to design and implement Internet systems for enhancingeducation and engineering design,
PO3,PO6,PO15
MC7501.2 Able to understand functionality of Internet system
MC7501.3 Able to design a system according to customer needs using theavailable Internet technologies
MC7501.4 Able to Design and develop interactive, client-side, server-sideexecutable web applications.
MC7501.5 Explore the features of various platforms and frameworks used inweb applications development
MC7502 SERVICE ORIENTED ARCHITECTURE
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7502.1 Known about the basic principles of service oriented architecture ,its components and techniques
PO4,PO5MC7502.2 Understand the architecture of web services
MC7502.3 Able to design and develop web services using protocolMC7502.4 Understand technology underlying the service design
MC7502.5 Acquire the fundamental knowledge of cloud computing
MC7503 MOBILE COMPUTING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7503.1 Gain the knowledge about various types of Wireless Data Networksand Wireless Voice Networks.
PO8,PO14MC7503.2 understand the architectures, the challenges and the Solutions of
Wireless Communication those are in useMC7503.3 realize the role of Wireless Protocols in shaping the future Internet.MC7503.4 know about different types of Wireless Communication Networks
and their functionalities.MC7503.5 Able to develop simple Mobile Application Using Android
MC7005 SECURITY IN COMPUTING
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7005.1 Apply cryptographic algorithms for encrypting and decryption forsecure data transmission
PO5,PO6,PO9
MC7005.2 Understand the importance of Digital signature for secure e-documents exchange
MC7005.3 Understand the program threats and apply good programmingpractice
MC7005.4 Get the knowledge about the security services available for internetand web applications
MC7005.5 Understand data vulnerability and sql injection Gain the knowledgeof security models and published standards
MC7009 HUMAN RESOURCE MANAGEMENT
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7009.1 Identify the primary external influences affecting HRM.
PO11,PO12,PO13
MC7009.2 Outline the components and the goals of staffing, training anddevelopment.
MC7009.3 Understand the selection procedure in various organizations.MC7009.4 Understand the practices used to retain the employees and able to
evaluate their performanceMC7009.5 Able to identify the stress and the cause of burn out.
MC7015 SOFTWARE PROJECT MANAGEMENT
CO Sl.No Course Outcomes Mapping of course outcome with POs
MC7015.1 Understand the activities during the project scheduling of anysoftware application
PO6,PO8,PO14
MC7015.2 Learn the risk management activities and the resource allocation forthe projects
MC7015.3 Can apply the software estimation and recent quality standards forevaluation of the software projects
MC7015.4 Acquire knowledge and skills needed for the construction of highlyreliable software project
MC7015.5 Able to create reliable, replicable cost estimation that links to therequirements of project planning and managing
DEPARTMENT OF MANAGEMENT STUDIES
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI – 623 806
DEPARTMENT VISION
To be one among top reputed business schools of choice among prospective student and recruiters by providingintellectual, behavioral knowledge input to students and practicing managers, who become effective leaders and responsible citizens inthe global environment.
DEPARTMENT MISSION
To develop socially responsible, globally competitive and disciplined managers.
VALUES AND BELIEFS
We promote a learning to learn culture that provides life-long support in an ever changing business environment. We believe in holistic personality development, which lays a great degree of emphasis on the need for the ethical behavior and
integrity in business dealings. We offer management education that provides global perspectives in the Indian context.
ABOUT THE DEPARTMENT
The MBA department started in the year 1995 with intake of 30 and in the year 1997 the intake increased by 60. In ourmanagement department is fast emerging as a premiere college that adopts to the ever changing needs of the Industry. Thefocus is an making MBA graduates’, versatile and innovative, in line with the current and emerging industry requirement. Oneof the challenges that organizations face in the age of information in dealing with massive arrangement of data.
Apart from building students IQ(Intelligence Quotient) MBA Department concentration on EQ( Emotional Quotient)the MBA graduates are coached to be people- friendly managers, with an emphasis on team work and business ethics. Thecampus has the most modern facilities to groom the future industry leaders. While we emphasis on incorporating world- classknowledge delivery methods that are technology enabled.
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs)
Program Objective – I
To have a thorough understanding of the core aspects of the business.
Program Objective – II
To provide the learners with the management tools to identify, analyze and create business opportunities as well as solve business
problems.
Program Objective – III
To prepare them to have a holistic approach towards management functions.
Program Objective – IV
To motivate them for continuous learning.
Program Objective – V
To inspire and make them practice ethical standards in business.
PROGRAMME OUTCOMES (POs)
On successful completion of the programme,
1. Ability to apply the business acumen gained in practice.
2. Ability to understand and solve managerial issues.
3. Ability to communicate and negotiate effectively, to achieve organizational and individual goals.
4. Ability to upgrade their professional and managerial skills in their workplace.
5. Ability to explore and reflect about managerial challenges, develop informed managerial decisions in a dynamically unstable
environment.
6. Ability to take up challenging assignments.
7. Ability to understand one’s own ability to set achievable targets and complete them.
8. Ability to pursue lifelong learning.
9. To have a fulfilling business career.
DEPARTMENT OF MANAGEMENT STUDIES
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI – 623 806
REGULATION – 2017 – I Semester Subjects Course Objective & Outcome
S.NO SUBJECTCODE SUBJECT NAME COURSE OBJECTIVE COURSE OUTCOME
1 BA5101 Economic Analysisfor BusinessTo introduce the concepts of scarcity andefficiency; to explain principles of microeconomics relevant to managing anorganization; to describe principles of macroeconomics to have the understanding ofeconomic environment of business.
Students are expected to become familiar with bothprinciples of micro and macro economics. They would alsobecome familiar with application of these principles toappreciate the functioning of both product and inputmarkets as well as the economy2 BA5102 Principles ofManagement
To familiarize the students to the basicconcepts of management in order to aid inunderstanding how an organizationfunctions, and in understanding thecomplexity and wide variety of issuesmanagers face in today’s business firmsThe students should be able to describe and discuss theelements of effective management, ii) discuss and apply theplanning, organizing and control processes, iii) describevarious theories related to the development of leadershipskills, motivation techniques, team work and effectivecommunication, iv) communicate effectively through bothoral and written presentation.3 BA5103 Accounting forManagement Acquire a reasonable knowledge in accounts.Analysis and evaluate financial statements. Possess a managerial outlook at accounts4 BA5104 Legal Aspects ofBusiness To create the knowledge of Legal perspectiveand its practices to improvise the business Legal insight will be established in the business practicesaccording to the situation of changing environment
5 BA5105 OrganizationalBehaviour To provide an overview of theories andpractices in organizational behavior inindividual, group andOrganizational level.Students will have a better understanding of humanbehavior in organization. They will know the framework formanaging individual and group performance.6 BA5106 Statistics forManagement To learn the applications of statistics inbusiness decision making To facilitate objective solutions in business decision makingunder subjective conditions7 BA5107 Total QualityManagement To learn the quality philosophies and tools inthe managerial perspective To apply quality philosophies and tools to facilitatecontinuous improvement and ensure customer delight
8 BA5111 Spoken and WrittenCommunicationTo familiarize learners with the mechanics ofwriting. To enable learners to write in Englishprecisely and effectivelyTo enable learners to speak fluently andflawlessly in all kinds of communicativecontexts with all nationalities
Get into the habit of writing regularly. Express themselvesin different genres of writing from creative to critical tofactual writing, take part in print and online mediacommunication, read quite widely to acquire a style ofwriting, and identify their areas of strengths andweaknesses in writing, Speak confidently with any speakersof English, including native speakers, Speak effortlessly indifferent contexts – informal and formal
DEPARTMENT OF MANAGEMENT STUDIES
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI – 623 806
Regulation 2017 - II Semester Subjects Course Objective & Outcome
S.NO SUBJECTCODE SUBJECT NAME COURSE OBJECTIVE COURSE OUTCOME
1 BA5201 AppliedOperationsResearch To learn the concepts of operations research applied inbusiness decision making. To facilitate quantitative solutions in businessdecision making under conditions of certainty,risk and uncertainty.2 BA5202 BusinessResearchMethods
To familiarise the students to the principles of scientificmethodology in business enquiry; to develop analyticalskills of business research; to develop the skills forscientific communications.Students would become acquainted with thescientific methodology in business domain.They would also become analytically skillful.They would become familiar with the nuancesof scientific communications.
3 BA5203 FinancialManagement Facilitate student to understand the operationalnuances of a Finance Manager, Comprehend thetechnique of making decisions related to financefunction. Possess the techniques of managing finance inan organization4 BA5204 Human ResourceManagement To provide knowledge about management issuesrelated to staffing, training, performance, compensation,human factors consideration and compliance withhuman resource requirements. Students will gain knowledge and skills neededfor success as a human resources professional5 BA5205 InformationManagement To understand the importance of information inbusiness, to know the technologies and methods usedfor effective decision making in an organization. Gains knowledge on effective applications ofinformation systems in business6 BA5206 OperationsManagement
To provide a broad introduction to the field ofoperations management and explain the concepts,strategies, tools and techniques for managing thetransformation process that can lead to competitiveadvantage.Understanding of the strategic and operationaldecisions in managing manufacturing andservice organizations and appreciation of therole of operations management function in anorganization.
7 BA5207 MarketingManagementDeveloping an understanding of ideas and nuances ofmodern marketing, Describe the process to formulateand manage the B2B marketing strategy including allkey components, Explain the techniques to conductmarket analysis practices including marketsegmentation and targeting, Compare and contrastdifferent perspectives that characterize the study ofconsumer behavior, Explain the role of IMC in theoverall marketing program.
Knowledge of analytical skills in solvingmarketing related problems, awareness ofmarketing management process.8 BA5211 Data Analysis andBusinessModeling To have hands- on experience on decision modeling Knowledge of spreadsheets and data analysissoftware for business modeling
DEPARTMENT OF MANAGEMENT STUDIES
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI – 623 806
Regulation 2017 - III Semester Subjects Course Objective & Outcome
S.NO SUBJECTCODE
SUBJECTNAME
COURSE OBJECTIVE COURSE OUTCOME1 BA5301 InternationalBusinessManagement To familiarise the students to the basic concepts ofinternational business management Students would be familiar with globalbusiness environment, global strategicmanagement practices and get acquaintedwith functional domain practices. Theywould be familiar with conflicts situationsand ethical issues in global business.2 BA5302 StrategicManagement To learn the major initiatives taken by a company’s topmanagement on behalf of corporate, involvingresources and performance in external environments.It entails specifying the organization's mission, visionand objectives, developing policies and plans tounderstand the analysis and implementation ofstrategic management in strategic business units.
This Course will create knowledge andunderstanding of management conceptsprinciples and skills from a people, finance,marketing and organizational perspectivesthe development of appropriateorganizational policies and strategies withina changing context to meet stakeholderInterests information systems to learn fromfailure key tools and techniques for theanalysis and design of information systems,including their human and organizational aswell as technical aspects.3 BA5003 CustomerRelationshipCustomer To understand the need and importance ofmaintaining a good customer relationship To use strategic customer acquisition andretention techniques in CRM4 BA5004 IntegratedMarketingCommunication This course introduces students to the basic conceptsof advertising and sales promotion and how businessorganizations and their institutiuons carry out suchactivitiesInsight into the importance of advertisingand sales promotion campaigns planning andobjective setting in relation to consumerdecision making processes.5 BA5006 ServicesMarketing To understand the meaning of services and thesignificance of marketing the services Will be able to apply the concepts of servicesmarketing in promoting services6 BA5011 MerchantBanking andFinancialServices
Understand the modes of issuing securities. Acquirefinancial evaluation technique of leasing and hirepurchase Good knowledge on merchant bankingactivities
DEPARTMENT OF MANAGEMENT STUDIES
MOHAMED SATHAK ENGINEERING COLLEGE, KILAKARAI – 623 806
III & IV Semester Subjects Course Objective & Outcome
S.NO SUBJECTCODE
SUBJECTNAME
COURSE OBJECTIVE COURSE OUTCOME7 BA5012 SecurityAnalysis andPortfolioManagementEnables student to Understand the nuances of stockmarket operations. Understand the techniquesinvolved in deciding upon purchase or sale ofsecurities
Become a good investment analyst8 BA5031 InternationalTrade Finance Understand export import finance and forexmanagement. Understand the documentation involvedin international trade Possess good knowledge on internationaltrade and the documentation involved in it.9 BA5014 EntrepreneurshipDevelopment To develop and strengthen entrepreneurial quality andmotivation in students. To impart basicentrepreneurial skills and understandings to run abusiness efficiently and effectively
Students will gain knowledge and skillsneeded to run a business10 BA5015 IndustrialRelations andLabour Welfare To explore contemporary knowledge and gain aconceptual understanding of industrial relations. Students will know how to resolve industrialrelations and human relations problems andpromote welfare of industrial labour.11 BA5017 ManagerialBehaviour andEffectiveness To examine managerial styles in terms of concern forproduction and concern for people. To assessdifferent systems of management and relate thesesystems to organizational characteristics
Students will gain knowledge aboutappropriate style of managerial behavior
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