Post on 05-Feb-2018
M.Tech- I Semester – Structural Engineering
ST0501 – MATRIX COMPUTER METHODS OF STRUCTURAL ANALYSIS
L T P C
3 2 0 4
Lecture
No
Topics Covered No.of
hours
planned
References
1. Force and displacement measurement - Generalised or
independent measurements - constrained or dependent
measurements
3 5,6
2. concept of flexibility and stiffness using systems of springs 3 5,6
3. Reciprocal relationships between stiffness and flexibility -
stiffness and flexibility in constrained measurements - (rank
of matrix)
2 5,6
Cycle Test-I 2
4. Direct method applied to beams and frames 3 1,2,5,6
5. Relationship between element and system - Strain Energy in
terms of flexibility coefficients
2 1,2,5,6
6. Approach to equivalent joint load concept through Betti's
Law
2 1,2,5,6
7. Problems in beams, frames, trusses - including effect of
temperature and support sinking.
3 1,2,5,6
Surprise Test-I 1
8. Direct stiffness method to beams, frames and simple trusses 3 1,2,3,5,6
9. Strain energy in terms of stiffness coefficients - Relationship 2 1,2,3,5,6
between element and systems - Static condensation
techniques
10. Problems in beams, frames including secondary effects.
Analysis of 3D structures - Grid and pin jointed trusses.
4 1,2,3,5,6
11. Programming of solution techniques for simultaneous
equation solution - Matrix operation
2 4
12. Simple program development for element stiffness matrix -
assemblage - Complete structure of a stiffness analysis
program with subroutines
3 4
13. Use of GTSTRUDL / STAAD / SAP to solve problems in
trusses, beams and frames.
4 4
14. Sub structuring techniques - Force and displacements 2 5,6
15. band width - reduction - tridiagnolisation technique 2 5,6
16. Band solvers - Frontal - solvers - Re analysis technique -
Transfer matrix method - use of symmetry and antisymmetry.
3 5,6
Model Exam 3
REFERENCE BOOKS
• Mcquire and Gallghar. R.H. "Matrix Structural Analysis", John Wiley, 2000
• Beaufit F.W et al. "Computer Methods of Structural Analysis", Prentice Hall, 1970
• John L.Meek, "Matrix Structural Analysis", Mc Graw Hill Book Company, 1971
• Bathe K.J. and Wilson E.L, "Numerical Methods in Finite Element Analysis", Prentice
Hall, Engle Wood Cliffs, New Jersey, USA, 1976
• Rajasekaran.S., Sankarasubramanian.G, "Computational Structural Mechanics", Prentice
Hall of India Pvt Ltd, New Delhi - 110 001, 2001, First Edition
• Rubinstien, M.F. 'Matrix Computer Analysis of Structures', Prentice Hall, 1966
Prepared by Approved by
Dr.K.S.Satyanarayanan HOD/CIVIL
Lesson Plan
M-Tech Structural engineering- I-Semester 2011-12
Course Code ST0710
Course Name Design of Tall Buildings
Prerequisites Nil
Category P
Lecture No Date Topic Reference
1,2 Introduction - Design Philosophy - History -
advantages and disadvantages - Vertical city concepts
1,5,6
3,4,5 Essential amenities - fire safety - water supply -
drainage and garbage disposal
1,5,6
6,7,8 Service systems - structural and foundation systems.
Factors affecting height, growth and form - Human
comfort criteria
1,5,6
9 Loads and materials-Gravity loading - Dead and Live
load - calculation - Impact and construction loads
1,6,7
10,11,12 Wind loading - static and dynamic approach -
Analytical and wind tunnel experimental method.
1,6,7
CYCLE TEST
13,14,15 Earthquake loading - Equivalent lateral force, Modal
analysis - combination of loading in various design
philosophies
1,6,7
16,17 Materials for tall buildings - High strength concrete -
Light weight concrete - Fibre reinforced concrete
Composite Materials
1,5,6
18,19 Structural systems- Behavior of High Rise structures -
Different system for load distribution in steel and
1,3,6
concrete
20,21 Vertical and horizontal load resistant systems 1,3,6
22,23,24 Rigid frames - braced frames - infilled frames - shear
walls - wall frames - tubular systems - outrigger braced
systems - Mega systems
1,3,6
25,26,27 Analysis and Design-Analysis and Design principles of
various horizontal load transfer systems - approximate
methods - Modelling for accurate analysis - 3D
analysis - Member forces – displacements
1,6,7
TERM PAPER
28,29,30 Analysis for various secondary effects - Creep,
shrinkage and temperature. Stability Analysis - Overall
buckling analysis of frames, wall frames, approximate
methods, second order effects of gravity loading
1,6,7
31,32,33 P - effect and various methods of analysis - influence
of foundation instability, out of plumb effects - Elastic
Deformations.
1,6,7
34,35 Dynamic Analysis - Principles of design of tall braced
frames for earthquake and blast resistant design
1,6,7
36,37,38 Advance topics-Structural systems for future
generation buildings - Expert systems for consultations
2,3,5
39,40 Economics - Research needs in tall building materials,
systems and designs
2,3,5
MODEL EXAMINATION
END SEMESTER EXAMINATION
Reference Books
1. Schuller.W.G., "High Rise Building Structures", John Wiley & sons, 1977
2. Lynn.S. Beedle, "Advances in Tall Buildings", CBS Publishers and Distributors, New
Delhi, 198
3. Lin T.Y and Stotes Burry.D, "Structural Concepts and Systems for Architects and
Engineers", John Wiley and Sons, 198
4. Dr.Gupta.Y.P, Editor, "Proceedings of National Seminar on High Rise Structures -
Design and construction practices for Middle Level Cities", Nov - 14 - 16, 1955. New
Age International Publishers Ltd., Chennai.
5. Lecture Notes on "Tall Buildings" - Short Term Course organized by Civil Engineering
Department, SRM Engg college, Kattankulathur. June 2002
6. Smith .B.S. and Coull .A., "Tall Building Structure", 'Analysis and Design', John Wiley
& Sons, Inc., 1991
7. Taranath .B.S., "Structural Analysis and Design of Tall Buildings", Mc Graw Hill Co.
1988.
PREPARED BY HOD/CIVIL
[Mr.S.PRADEEP]
Lesson Plan
M.Tech Structural Engineering Semester I 2011-12
Course Code ST 0505
Course Name THEORY OF ELASTICITY AND PLASTICITY
Prerequisites Nil
Category P
Lecture No Topic
Unit I
1,2 Analysis Of Stress And Stain - Stress Strain Relationship
3,4 State Of Strain At A Point
5,6,7 Compatibility Equations
8 Generalized Hooke's Law
9,10 Plane Stress And Plane Strain.
Unit II
11,12 Airy's Stress Function – Polynomials
13,14,15 Biharmonic Equations
16,17 General Solution Of Problems By Displacement (Warping Function) Force
(Prandtl's Stress Function)
18,19,20,21 Two Dimensional Problems In Carterian Co-Ordinates
1.Bending Of Cantilever Loaded At End
2.Bending Of Beam By Uniform Load
Unit III
22 General Solution Of Problems
23,24 Torsion Of Prismatic Bars By Displacement (Warping Function) Force
(Prandtls Stress Function)
25,26 Torsion Of Shafts Of Circular And Non Circular Cross Sectional Shapes Only
(Elliptic And Rectangular)
27,28 Torsion Of Thin Rectangular Sections And Hollow Thin Walled Sections.
Unit IV
29 Principle Of Virtual Work
30,31 Strain Energy In Axial Load, Flexure, Shear And Torsion
32,33 Rayleigh Ritz Methods
34,35 Castigliano's Theorem-Complementary Strain Energy.
Unit V
36,37 Introduction To Problems In Plasticity
38 Physical Assumption - Criterian Of Yielding
39,40 Rankines Theory - St. Venant's Theory
41,42 Flow Rule (Plastic Stress - Strain Relationship
43,44 Elastic Plastic Problems Of Beams In Bending - Plastic Torsion
45 Sand Heap Analogy
Faculty members handling
Faculty Name Signature
Miss.S.Sindhu Nachiar
HOD/CIVIL ENGG
Lesson Plan
M-Tech Structural engineering- I-Semester 2011-12
Course Code ST0503
Course Name Structural dynamics
Prerequisites Nil
Category P
Lecture No Topic
1 Introduction
2,3,4 Differential equation of motion, D'Alembert's principle
5,6,7,8 Free vibration and forced vibration response, damped
and undamped, evaluation of damping constants
9,10 vibration of machine foundation, vibration isolation
11,12,13 vibration measuring instruments. Response to general
loading , pulse excitation
14,15,16 Duhamel Integral, Numerical methods , Newmark
method
17,18 Two and three degree systems , solution of eigen value
problem
19,20 Stodola method , orthogonality conditions , Modal
superposition method
21,22,23 Vibration analysis of continuous systems , simply
supported beams
24,25 Effect of shear and rotary inertia, Timoshenko beam ,
Effect of axial loads.
CYCLE TEST
26 Concept of response spectrum
27,28,29 estimation of design forces of multistory buildings
using Bureau of Indian Standards (BIS) codes ,
earthquake analysis of base isolated buildings.
30 Wind effects on structures
31,32 static and dynamic , analysis for wind loads using BIS
codes
33,34,35 quasi static method and gust factor method.
TERM PAPER
36,37,38 Blast loading
39,40,41,42,4
3,44
over ground and underground structures - design
parameters - relevant BIS codes
MODEL EXAMINATION
END SEMESTER EXAMINATION
REFERENCE BOOKS
1. Clough & Penzein "Dynamics of Structures", McGrawHill 1995
2. Short course on Seismic Design of Reinforced Concrete Buildings, CEP, IIT, Kanpur,
Dec.1995
3. Anil.K.Chopra, Dynamics of Structures (Theory and Applications to Earthquake
Engineering), 2nd Edition, Prentice Hall of India Private Limited. New Delhi, 2003
4. Mukhopadhyay, M., "Structural Dynamics", Ane Books, India, 2006
5. Paz, M., "Structural Dynamics - Theory and Computations", CBS Publications, New
Delhi, 1983
PREPARED BY HOD/CIVIL
[Mr.H.THIAGU]
PG LESSON PLAN
II M.Tech III Sem Structural Engineering
LESSON PLAN
Year/Degree II M.Tech III Sem Structural Engineering
Sub.Code/Title ST0713 Maintenance and Rehabilitation of Structures
Lecture No. Topics Covered Ref.
1. Overview of the syllabus, objectives of the course and purpose 1,5,6
2. Performance of construction materials and components of structures for
strength permeability
1,5,6
3. Thermal properties of concrete and cracking effects due to climate,
temperature
1,4
4. Deterioration due to chemicals, wear and tear 1,4
5. & 6 Design and Construction errors 5 &6
7. Effects of cover thickness, Definitions Maintenance and Repair and
Rehabilitation
4,5,6
8. Defect, Damage, Decay-cause of Decay, arresting decay, Distresses in
members
6
9. ,10 Facets of Maintenance, importance of Maintenance, Advantages of
Maintenance
2,6
11. Role of professional officer Assessment of Procedure for evaluating
damaged structure
2,6
12. ,13 Diagnosis of construction failures 4
14. ,15 Observing distress in R.C.element effects of roots in trees in the vicity of 6
Lecture No. Topics Covered Ref.
and load beaming structures
TEST I
16. Observing distress in steel and timper structural elements 6
17. &18 Corrosion damage of R.C.Combo nation of concrete, Electro chemical
reactions
6
19. &
20
Corrosion Monitoring techniques-corrosion protection methods – corrosion
inhibitors
6
21. Use of corrosion resistant steels Cathodic Protection-rust eliminates 5,6
22. ,23 Coatings to concrete and steel and their importance 6
24. ,25 Causes of deterioration of concrete structures steel structures and timber
structures masonry and its deterioration
26. Surface deterioration of concrete, offlore………………caves, prevention
and protection
6
SURPRISE TEST
27. Special concretes and Mortar 6
28. Concrete Chemicals 5,6
29. Expansive cement, polymer concrete 1,5,6
30. Sulphur infiltrated concrete, Ferrocement 1,5,6
31. Fibre reinforced concrete 5,6
TEST II
32. Methods of repair in concrete 5,6
33. Methods of repair in steel and Timber 6
34. Methods of repair in Masonry structures 6
Lecture No. Topics Covered Ref.
35. Guniting, shotcreting-epoxy injection technique 6
36. Strengthening of existing structures-repairs to overcome low member
strength, deflection, cracking chemical disruption
6,9
37. Repairs to deterioration due to weaking, wear damage due to fire, leakage 46
38. Repairs due to marine exposure 3,6
39. Use of Non destructive testing techniques for evaluation 5,6
40. Load testing of structures 5,6
41. Demolition of structures using Engineered and Non Engineered technique 6
42. Case studies on repairs 6
43. Model Examination
References
1. Concrete Technology MS Shelty – Theory and Practive, S.Chand & Co , New Delhi,
1992.
2. Raikar R N “Learning form failures, deficiencies in design, Construction, and service R
& D Centre(SDCPL) Raikar Bhavan, Bombay 1987.
3. Health monitoring of structures “ A practice strategy-proceedings of the ISTE sponsored
short course Department of Civil Engineering, SRM Engineering College, Jan 2003.
4. “Repair and Rehabilitation” Compietation from IGJ, ACC RCD Publication 2001.
5. Concrete Technology by A.R. Santhakumar Oxford University Press, New Delhi 2004.
6. Hand out of Dr.M.Lakshmipathy.
Prepared by HOD/CIVIL
(Dr.M.Lakshmipathy)
LESSON PLAN
M-Tech Structural engineering- III-Semester 2011-12
Course Code ST0714
Course Name PRESTRESSED CONCRETE STRUCTURES
Prerequisites Nil
Category P
LECTURE NO TOPIC
1 Basic Concepts
2,3 Stresses at transfer and service loads
4,5,6 ultimate strength in flexure
7,8,9 code provisions in - deflection (short ,long
term) in (IS, BS, ACI).
10,11 Design for shear, bond and torsion Design of
End blocks
12,13 Design of Tension Members
14,15 - Design of prestressed concrete cylindrical
water tanks
16,17 Design of prestressed concrete pipes.
CYCLE TEST
18,19,20 Compression members with and without flexure
21,22 Compression member and its application in
design of piles
23,24,25 Composite construction with precast PSC beams
and cast-in-situ R.C. Slab
26,27 Analysis and Design
28,29
Ultimate Strength , their application
30,31,32,33 Structures like folded plates, prestressed
cylindrical shells, spherical shells, partial
prestressing
34,35,36 Principles, analysis and design concepts,
crackwidth.
TERM PAPER
37,38 Analysis and design
39,40,41 continuous beams
42,43 Concept of linear transformation
44,45 concordant cable profile and cap cables.
MODEL EXAMINATION
END SEMESTER EXAMINATION
REFERENCE BOOKS
1.Krishna Raju.N "Prestressed Concrete", 4th Edition, Tata McGraw Hill
Publishing Co. New Delhi 2000 \
2.Sinha .N.C & S.K. Roy, "Fundamentals of Prestressed Concrete, S.Chand
& Co., 1985
3. Rajagopalan.N. "Prestressed Concrete", Narosa Publishing House, New
Delhi - 2002
4.Lin .T.Y. "Design of Prestressed Concrete Structures", John Wiley and
Sons - Inc - 1960
5. Leonhardt.F. "Prestressed Concrete Design and Construction", - Second
Edition Wilhelm Ernst & Sohn, Berlin, 1964
6.Guyon .V. "Limit State Design of Prestressed Concrete", - Vol - 1 & 2,
Applied Science Publishers, London 1995
7. Dayaratnam.P., "Prestressed Concrete", Tata McGraw Hill Publishing Co.
New Delhi 2000
PREPARED BY HOD/CIVIL
[Mr.H.THIAGU]
Lesson Plan
M-Tech Structural engineering- III-Semester 2011-12
Course Code ST0708
Course Name Design of Steel-Concrete Composite Structures
Prerequisites Nil
Category P
Lecture No Date Topic Reference
1,2 Introduction to Steel - Concrete Composite
Construction
1,3
3,4 Theory of Composite Structures 1,3
5,6 Introduction to Steel - Concrete - Steel - Sandwitch
Construction.
1,3
7,8 Behaviour of composite beams - columns 1
9,10,11,12 Design of Composite beam 1
13,14,15,16 Concrete Composite Columns 1
17,18,19,20 Design of Composite Trusses. 1
21,22,23 Types of Connections 1
24,25,26 Design of Connections in Composite structures 1
27,28 Shear Connections 1
29,30,31 Design of Connections in composite trusses. 1
32,33 Behaviour of girder bridges 1,3
34,35,36 Design concepts of girder bridges 1,3
37,38 Case Studies on steel - concrete composite
construction structures in buildings
1,3
39, 40 Seismic behaviour of composite structures. 1,3
Reference Books
• Teaching Resource Material for Structural Steel Design", Volume 2/3 jointly prepared by
1. I.I.T., MS 2. Anna University 3. SERC, MS 4. "Institute for Steel Development and
growth", Calcutta
• Owens .G.W. & Knowels.P. "Steel Designs Manual", (Fifth Edition) Steel Concrete
Institute (UK) Oxford #CCCCCC; well Scientific Publications, 1992
• Johnson.R.P. "Composite Structures of Steel and Concrete". Vol-I, #CCCCCC;well
Scientific Publications (Second Edition) U.K. 1994
PREPARED BY HOD/CIVIL ENGG
MR.A.BALAMURUGAN
M.Tech / CONSTRUCTION ENGINEERING & MANAGEMENT
SRM UNIVERSITY, KATTANKULATHUR -603 203
Faculty of Engineering and Technology
Department of Civil Engineering
Degree / Specialization : M.Tech / Construction Engineering & Management
Year / Semester : I / I
Subject Code / Title :
CN0501 / MODERN STRUCTURAL MATERIALS AND SYSYTEM DESIGN
Staff : ANANDH.KS / Assistant Professor (O.G) / CIVIL
Lesson no Topics No of hours References
Materials for structural system-masonry-
materials-masonry units aspects-
requirements-concrete infill reinforcing-
concrete infill reinforcing steel-
construction systems.
3 1
Concrete, Steel - behavior - tension -
compression - Reinforced concrete -
characteristics - applications
3 1,2
1
Fiber reinforced concrete - introduction -
properties - factors - requirements -
orientation - volume fraction - aspect ratio
- applications - experience in use.
4 1
Composite materials - failure modes -
concept -behavior - applications -
advantages.
3 1
Type of loads - static and dynamic loads -
terminologies. Dead load - unit weight -
materials -building components - store
materials
3 2,3
Imposed load - loads on floors -reduction
factor - beam - roof - example. Wind load -
speed and pressure - forces on structures -
dynamic effects - force on circular sections
4 3 2
Special loads - accidental loads.
Earthquake and blast loads - general
principle - recommendations for planning
blast resistance - IS codes.
3 1,4
3 Structural systems - function -
understanding - classifications. 2 1,2
Floor systems - types - properties -Gravity
load transfer systems - lateral load transfer
system - cost of system - rigid and braced
frames - behaviour - limitations- analysis
methods.
3 2,4
Introduction - process of design - basic
requirements - phases of construction. 3 1,4
Design parameters - steps in conceptual
design - common requirements - data
required - stages of design
2 3,4 4
elements of structural systems - economy 2 1,2
in design - structural safety during
construction.
Introduction - defect -decay - repair cost -
distress in structures - masonry - steel -
concrete structures.
4 2,4
Quality monitoring - maintenance -
preventive measures in new construction. 2 1,2 5
Assessment procedure for damages - flow
chart. Materials for repair - techniques of
repair - strengthening techniques
2 3,4
Reference Books
1. Cowan HJ, "Architecture Systems", An Introduction to structural mechanoics American
Elsevier, New York 1971
2. Enjel Heinrich , "Structures Systems", Iliffe, London, 1967
3. Miha Tomazevic, "Earthquake resistance design of masonry buildings", Series on
Innovations in Structures and Construction -Vol.I., Imperial College Press, 1999
4. Health Monitoring of Structures A proactive strategy, "Lecture notes", seminar by SRM
Engineering College, 2003
STAFF INCHARGE HOD /
CIVIL
(ANANDH.KS , AP /CIVIL )
SRM UNIVERSITY, KATTANKULATHUR -603 203
Faculty of Engineering and Technology
Department of Civil Engineering
Degree / Specialization : M.Tech / Construction Engineering & Management
Year / Semester : I / I
Subject Code / Title : CN 0503 / PROJECT FORMULATION AND APPRAISAL
Staff : L.KRISHNARAJ / Assistant Professor (O.G) / CIVIL L T P C
LESSON PLAN 3 2 0 4
SI.NO
LESSON TOPIC
Planned
Hour
Actual
Hour
Text
book
1 Capital investments- Capital budgeting 3 1
2 feasibility study – preliminary analysis 2 1,3
3 market, technical, financial, economic and ecological 4 1
4 detailed market and demand analysis- detailed technical
analysis
3 1,3
5 CYCLE TEST-1
6 Time Value of Money 2 1
7 Cost of Capital 3 1,2
8 NPV -BCR 4 1
9 IRR -ARR -Urgency 4 1
10 Pay Back Period –Analysis of risk 4 1
11 Financing of projects 2 1
12 means of finance 2 1
13 financial institutions – special schemes 2 1,2
14 TERM PAPER
15 Private sector participation in Infrastructure Development
Projects
3 1,2
16 BOT, BOOT 3 2
17 Technology Transfer and Foreign Collaboration . 4 2
18 MODEL EXAM Total hours 45
REFERENCES
1. Prasanna Chandra, Projects -Planning Analysis Selection Implementation & Review
Fourth Edition,. Tata McGraw Hill Publishing Company Ltd., New Delhi.. 1995.
2. Joy P.K.. Total Project Management - The Indian Context (Chapters 3 .7), New Delhi,
Macmillan India Ltd., 1992.
3. United Nations Industrial Development Organization (UNIDO) Manual for the
preparation of Industrial Feasibility Studies, (IDSI Reproduction) Bombay, 1987.
STAFF INCHARGE HOD / CIVIL
(L.KRISHNARAJ, AP /CIVIL )
Degree / Specialization : M.Tech / CONSTRUCTION ENGINEERING & MANAGEMENT
Year / Semester : I / I Sem
Subject Code / Title : CN 0505 / Quantitative Techniques in Construction Management
Staff : V.R PRASATH KUMAR / Assistant Professor (O.G) / CIVIL
SI.NO LESSON TOPIC
Planned
Hour
Actual
Hour
Text
book
1 To review the basics of Optimization principles
2
To study the optimization techniques and simulation of
models
3
To apply the concepts studied under 1 and 2 above to
inventory, scheduling and other related problems
4 Introduction to Operations research-Linear programming 4 1
5
Graphical and Simplex Methods,Duality and Post Optimality
Analysis 5 1,2
6 Transportation and Assignment Problems 3 2,3
7 Cycle Test - 1
8 Inventory control,EOQ,Quantity Discounts,Safety Stock 4
9
Replacement Theory-PERT and CPM-Simulation Models-
Quality Control 4 2,3
10
Working Capital Management-Compound Interest and Present
Value methods 4 1,3
11 Discounted Cash Flow Techniques-Capital Budgeting 5
Term Paper
12
Decision Theory-Decision Rules-Decision making under
conditions of certainity 4 3,4
13 risk and uncertainity-Decision trees-Utility Theory 4 4
14 Cost concepts-Break-even -Analysis 4 4
15 Pricing techniques-Game Theory applications 4 4
16 Model Exam
Total Hours 45
Reference Books
1.Vohra, N.D. " Quantitative Techniques in Management ", Tata McGraw Hill Co., Ltd, New Delhi, 1990
2.Seehroeder, R.G., " Operations Management ", McGraw Hill, USA, 1982
3.Levin, R.I, Rubin, D.S., and Stinsonm J., " Quantitative Approaches to Management" McGraw Hill Book C
4.Frank Harrison, E., " The Managerial Decision Making Process ", Houghton Miffin Co.Boston, 1975
Handling Staff
HOD /
CIVIL
(V.R Prasath Kumar / Civil)
III – Sem - M.Tech / CONSTRUCTION ENGINEERING & MANAGEMENT
SRM UNIVERSITY, KATTANKULATHUR -603 203
Faculty of Engineering and Technology
Department of Civil Engineering
Degree / Specialization : M.Tech / Construction Engineering & Management
Year / Semester : II / III
Subject Code / Title : CN0704 / QUALITY CONTROL & SAFETY MANAGEMENT
Staff : D.RENUKA PARAMESWARI / Assistant Professor (O.G) / CIVIL L T P C
LESSON PLAN 3 0 0 3
REFERENCES
1. James, J.O Brian, Construction Inspection Handbook -Quality Assurance and:Quality
Control, Van Nostrand, New York(, 1989
2. Kwaku, A., Tenah, Jose. M. Guevara, Fundamentals of Construction Management and
Organization, Reston Publishing Co., Inc., Virginia, 1985
3. Juran Frank, J.M. and Gryna, F.M. Quality Planning and Analysis, Tata McGraw Hill
1982
4. Hutchins.G, ISO 9000, Viva Books. New Delhi 1993
5. Clarkson H. Oglesby, Productivity Improvement in Construction, McGraw-Hill, 1989
6. John L. Ashford, The Management of Quality in Construction. E & F.N, Spon. New
York, 1989
STAFF INCHARGE HOD / CIVIL (D.RENUKA
PARAMESWARI, AP /CIVIL )
LESSON PLAN
M-Tech Construction Engineering and Management – III, Semester 2011-12
Course Code CN0713
Course Name CONTRACT LAWS AND REGULATIONS
Prerequisites Nil
Category CONSTRUCTION MANAGEMENT
Lecture No Topic
1,2,3 Indian Contracts Act -Elements of Contracts
4,5 Types of Contracts
6,7 Standard Contract Document
7,8 Law of Torts
9,10 Pre qualification - Bidding - Two Cover System
11,12,13 Tender documents- Evaluation of Tender from Technical, financial aspects
14,15 Potential Contractual Problems - price variation clause
16,17,18 Laws and Acts - Agreements – Violations
19,20 Appointment of arbitrator-Power and duties of arbitrator
21,22 Dispute review board
23,24,25 EMD - Security deposits - Fine - Liquidated Damages
26,27 Insurance income tax - Sales tax – VAT
28,29 Legal requirements of planning
30,31 Local government approval
32,33 Labour laws - Workmen compensation act
34,35,36 Minimum wages Act - Maternity benefit Act
37,38 Domestic emerging on misconduct
REFERENCE BOOKS
1. Gajaria G.T., Laws Relating to Building and Engineering Contracts in India,
M.M.Tripathi Private Ltd., Bombay, 1982 Tamilnadu PWD Code, 1986
2. Jimmie Hinze, Construction Contracts, McGraw Hill, 2001
3. Joseph T. Bockrath, Contracts, the Legal Environment for Engineers and Architects,
McGraw Hiii, 2000
4. Lecture Notes, Legal Aspects for Civil Engineers, Short Term Course organized by
SRMEC, 29th May to 4th June, 2002
5. Oxley Rand Posicit, Management Techniques applied to the Construction Industry,
Granda Publishing Ltd., 1980
Prepared By
Vinish John HOD/CIVIL
Degree / Specialization : M.Tech / CONSTRUCTION ENGINEERING AND
MANAGEMENT
Year / Semester : II / III
Subject Code / Title : CN 0710 / Shoring, Scaffolding and Form work
Staff : RAJ PRASAD.J / Assistant Professor (O.G) / CIVIL
SI.NO LESSON TOPIC
Planned
Hour
Text
book
1
Lumber - Types - Finish - Sheathing ratio -Working stresses -Repetitive
member stress 2 1
2
Plywood -Types and grades -Textured surfaces and strength -
Reconstituted wood 2 1
3
Steel -Aluminum -Form lining materials - Hardware and fasteners -
Nails in Plywood -Bolts, lag screws and connectors - Bolt loads. 3 1
4
Design considerations- Live loads and Wind pressure -Concrete
pressure on form work- Concrete density -Height of discharge -
Temperature -Rate of Placing 3 1
5
-Consistency of concrete - Vibration -Hydrostatic pressure and pressure
distribution -Examples -Adjustment for non-standard conditions- 2 2
6
Basic simplification - Beam forms -Slab forms- Column forms -Wall
forms -Allowable stresses - Check for deflection, bending and lateral
stability - Examples. 2 2
7
Simple wood stresses -Slenderness ratio -Allowable load -Tubular steel
shores -Patented shores -Site Preparation, Size and spacing 2 2
8
-Steel Tower Frames -Safety practices -Horizontal shores -Ellis shores -
Dayton sure grip and Baker Roos shores -Safway Symons shores-Dead
shore -Raking and Flying shores. 3 3
9
Overall Planning -Detailed planning - Standard units - Corner units -
Schedule - Planning at Tender stage - Development of basic system -
Planning for maximum reuse - Planning examples 2 1
10
Site layout plan-Crane arrangements -Recheck plan details - Planning
for safety- Transporting plant -Wales and ties - Vertical transportable
form work. 3 3
11
Location of job mill -Storage -Equipment-Form for Wall footings -
Column footings -Slab on grade and paving work -Highway and Airport
paving 2 1
12
External vibration -Prefabricated panel systems - Giant forms -Curved
wall forms -Tolerance for walls -Erections Practices 2 4
13
-Column heads-Beam or girder forms - Suspended forms- Suggested
Tolerances -Concrete Joint construction-Flying system forms 2 4
14
Causes of failures -Case studies- Finish of exposed concrete -Design
deficiencies -Safety factors -Stripping sequence - Reshore installation -
Advantages of reshoring. 3 7
15
Shell forms -Design considerations -Loads -Building forms -Strength
requirements -Tunnel forming components 2 4
16
- Curb and gutter forms - Invert forms -Arch forms -Concrete placement
methods - Cut and cover construction -Tolerances 2 6
17
Slip forms-Principles -Types -Advantages -Functions of various
components-Planning -Safety in slip forms -Special structures built with
slip form technique 3 7
18
-Codal provisions -Types of scaffolds -Putlog and Independent scaffold
-Single pole scaffolds -Fixing ties- Spacing of ties 2 4
19
bracing -knots safety net -General safety requirements- Gantry and
system scaffolds - Shuttering for Precast members and continuous
casting forms. 3 4
20 Model Exam
Total Hours 45
Reference Books
1
Robert L. Peurifoy and Garold D. Oberlender, "Formwork for Concrete
Structures", McGraw- Hill, 1996
2
Hurd. M.K., "Formwork for Concrete", Special Publication No.4 Fifth Edition
American Concrete Institute, Detroit, 1983
3
4
5
Tudor Dinescu and Constantin Radulescu, "Slip Form Techniques", Abacus Press
Tum Bridge Wells, Kent, 1982.
6
7
Safety Requirements for Scaffolding, American National Standards Institute.
Broadway, New York, 10018
8
Prepared By
HOD / CIVIL
Mr.RajPrasad
SRM UNIVERSITY, KATTANKULATHUR -603 203
Faculty of Engineering and Technology
Department of Civil Engineering
egree / Specialization : M.Tech / Construction Engineering & Management
ear / Semester : I / I
ubject Code / Title : CN0708 / BUILDING SERVICES
aff : D.RENUKA PARAMESWARI / Assistant Professor (O.G) / CIVIL L T P C
LESSON PLAN 3 0 0 3
SI.NO
LESSON TOPIC
Planned
Hour
Actual
Hour
Text
book
19 Water quality, Purification and treatment- water supply
systems-distribution systems in small towns Water quality,
Purification and treatment
4 1
20 types of pipes used- laying jointing ,testing-testing for
water tightness plumbing system for building-internal
supply in buildings- municipal bye laws and regulations
4 1,3
21 Rain Water Harvesting - Sanitation in buildings-
arrangement of sewerage systems in housing -pipe systems-
storm water drainage from buildings
4 1
22 septic and sewage treatment plant - collection, conveyance
and disposal of town refuse systems.
3 1,3
23 CYCLE TEST-1
24 Types of wires , wiring systems and their choice -planning
electrical wiring for building -main and distribution boards
transformers and switch gears
4 1
25 -modern theory of light and colour -synthesis of light -
luminous flux -candela- lans of illumination-lighting
design-design for modern lighting.
4 1,2
26 Ventilation and its importance-natural and artificial systems 3 1
27 Window type and packaged air-conditioners-chilled water
plant -fan coil systems-water piping -cooling load -air
conditioning systems for different types of buildings
4 1
28 protection against fire to be caused by A.C.Systems. 1 1
29 Causes of fire in buildings-safety regulations-NBC- 2 1
30 planning considerations in buildings like Non-combustible
materials , construction, staircases and A.C. systems,
special features required for physically handicapped and
elderly in building types
3 1
31 SURPRISE TEST-1
32 heat and smoke detectors-dry and wet risers-Automatic
sprinklers
3 1,2
33 Capacity determination of OHT and UGT for fire fighting
needs..
2 2
34 Intelligent buildings-Building automation-Smart buildings-
Building services in high rise buildings.
4 2
35 MODEL EXAM Total hours 45
REFERENCES
1. G.M.Fair,J.C.Geyer and D.Okun, Water and waste Engineering ,Vol.II,John Wiley
&sons,Inc.,New York. 1968
2. R.G.Hopkinson and J.D.Kay , The Lighting of buildings ,Faber and Faber,London, 1969
3. Hand book for Building Engineers in Metric systems,NBC, New Delhi, 1968
4. Philips Lighting in Architecture Designs,McGraw Hill, New York, 1964
5. Time saver Standards for Architecture Design Data , Callendar JH ,McGraw Hill, 1974
6. William H.Severns and Julian R.Fellows, Air conditioning and refrigeration ,John Wily
and sons, London,1988
STAFF INCHARGE HOD / CIVIL (D.RENUKA
PARAMESWARI, AP /CIVIL
M.Tech - Environmental Engineering – I Semester
SRM U NIVERSITY
FACULTY OF ENGINEERING AND TECHNOLOGY
DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN
Sub:code & title : EN0505 SOLID WASTE MANAGEMENT
Batch/semester : M.Tech / I
Sl.No. Topics to b covered No. Of Hrs Reference
1
Types and sources of solid wastes.
Need for solid waste management.
Elements of integrated solid waste management system
and roles of stakeholders
Hierarchy of Integrated Solid Waste Management
(ISWM)
Planning for ISWM
Issues and future challenges in SWM
Salient features of Indian legislations on management
and handling of municipal solid wastes , plastics and fly
ash
1
2
3
4
6
1
1
1
1
1
2
2 Waste generation – rates and variation at
International ,global and local level
Waste composition
Factors causing variation in rates and composition
Physical , chemical and Biological properties of solid
wastes
Physical , chemical and Biological transformations of
solid waste
Importance of waste transformations in SWM
Waste sampling and characterization plan
Source reduction of wastes, recycling and reuse
Waste exchange
7
8
10
11
12
15
1
1
1
1
1
1
3 Handling and segregation of waste at source
Storage and collection of municipal solid waste
16
18
1
1
Analysis of collection systems
The need for transfer and transport
Transfer stations optimizing waste allocation –
compatibility,
Storage, labelling wastes
19
20
22
1
1
1
4 Objectives of waste processing
Unit operations for the material separation and
processing technologies
Biological and chemical conversion technologies
Methods and controls of composting
Energy recovery and other modern techniques in
managing solid waste
Case studies
24
27
29
31
33
1
1
1
1
1
5 Waste disposal options
The landfill method of solid waste disposal
Reactions occurring in landfills
34
1
Landfill classifications, types and methods
Landfill site selection considerations
Design and operation of sanitary landfills, secure
landfills.
Landfill gas management – composition, characteristics,
generation, movement and control
Leachate management – composition, formation,
movement and control
Closure of landfills and Environmental Monitoring
Landfill Remediation
36
37
39
41
43
45
1
1
1
1
1
1
REFERENCES:
1. George Tchobanoglous, Hilary Theisen , Samuel A, Vigil “Integrated Solid Waste
Management, McGraw – Hill International edition, New York, 1993
2. CPHEEO “Manuel on Municipal Solid Waste Management, Central Public Health and
Environmental Engineering Organisation, Government of India ,New Delhi,2000
Prepared By Approved By
Sija Arun HOD (civi
Sub code /Title: EN 0503 UNIT OPERATION AND PROCESS IN WATER AND
WASTEWATER TREATMENT
Branch/ Specialisation : M.Tech ENVIRONMENTAL ENGINEERING Sem / Year : I
Sem- I YEAR
Sl.No TOPICS TO BE COVERED
HOURS
PLANNED
REFERENCE
L T P
1
Introduction - Unit operations and
processes 2 2,3
2 Principal types of reactor 1 1,3
3 Flow measurement 1 3,4
4 Screening -Types 2 1 2,3
5 Flow equalization 2 3 3,4
6 Mixing - Types 2 1,3
7 Coagulation and floculation 1 1 2,3
8 Test 2
9 Introduction - sedimentation 1 1,3
10
Types of settling - discrete, floculant,
hindered 2 1,3
11 Flotaton - Types 2 2 2,3
12 Filteration - Types of filters 2 1,3
13 Head loss through filters 1 2 1,3
14 Construction- design of slow sand filter 2 1,3
15 Design problems 2 1,3
16 Construction -design of rapid sand filters 2 1,3
17 Design problems 2 1,3
18 Announced Quiz 1
19 High rate filters and pressure filter 1 2,3
20 Disinfection - objectives - types 1 2,3
21 Chlorinated - Bleaching powder 2 2,3
22 Ozone treatment - UV irradiation 2 2,3
23
Types of chlorination -Break point
chlorination 2 2,3
Dechlorination
24 Aerobic suspended growth process 2 1,3
25 Anaerobic suspended growth process 2 1,3
26 Aerobic attached growth process 2 1,3
27 Anaerobic attached growth process 2 1,3
28 Determination of kinetic coefficient 2 2 1,3
29 Unannounced Quiz 1
30 pH 3 LAB Manual
31 Conductivity 2 LAB Manual
32 TDS 2 LAB Manual
33 Total solids 3 LAB Manual
34 Hardness 3 LAB Manual
35 Alkalinity 3 LAB Manual
36 Turbidity 2 LAB Manual
37 Dissolved Oxygen 3 LAB Manual
Sl.No TOPICS TO BE COVERED
HOURS
PLANNED REFERENCE
L T P
38 Biological oxygen demand 3 LAB Manual
39 Chemical oxygen demand 3 LAB Manual
40 Coliform count 3 LAB Manual
Reference Books
1. G.S. Birdie J.S. Birdie "Water Supply & Sanitary Engineering", Dhanpatr Rai
Publishing
company Pvt Ltd. New Delhi.
2. R. Pannirselvam "Environmental Engineering Vol - I "Water Supply and Treatment", SPGS
Publishers,
chennai.
3. METCALF & EDDY, INC. "Wastewater Engineering - Treatment, Disposal,
and Reuse",
Third Edition, Tata McGraw-Hill Publishing CompanyLimited, New
Delhi 1995
4. "CASEY. T. J. "Unit Treatment Processes in Water and Wastewater Engineering", John Wiley
& Sons England 1993
Prepared By HOD /CIVIL
Mr.G.Vanketasamy
M.Tech / III – Environmental Engineering
ENGINEERING AND TECHNOLOGY
DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN
Sub:code & title : EN0716 CLEANER PRODUCTION
Batch/semester : M.Tech / III
Sl.No. Topics to be covered No. Of Hrs Reference
1- Sustainable Development- Indicators of Sustainability
Sustainability strategies-Barriers to Sustainability
Industrial activity and Environment-Industrialisation and
Sustainable development
Industrial Ecology-Cleaner Production(CP)in Achieving
Sustainability
Prevention versus Control of Industrial Pollution-
Environmental
Policies and Legislations
Regulations to Encourage Pollution Prevention and Cleaner
Production
Regulatory versus Market Based Approaches
2
4
5
7
8
9
1
1
1
1
1 & 3
1 & 3
CYCLE TEST - I
2
Pollution Prevention- Definition-Importance-Historical
Evolution-Benefits-Promotion-Barriers
Role of Industry, Government and Institutions
Environmental Management Hierarchy-Source Reduction
Techniques
Process and Equipment Optimisation, Reuse, Recovery,
Recycle, Raw material Substitution
Internet Information and Other CP Resources
SURPRISE TEST
11
13
15
17
18
1 & 3
1 & 3
1 & 3
1 & 3
1 & 3
3 Over view of CP Assessment Steps and Skills
Preparing for the site visit, information gathering and
process
20
1 & 3
flow diagram material balance, CP operation generation
Technical and Environmental feasibility Analysis
Economic valuation of alternatives- total cost analysis-CP
financing- Establishing a program
Organising a program-preparing program plan-Measuring
progress
Pollution Prevention and Cleaner production Awareness
Plan-Waste Audit – Environmental Statement
CYCLE TEST - II
23
25
27
29
32
1 & 3
1 & 3
1 & 3
1 & 3
1 & 3
4 Elements of Life Cycle Assessment-LCA stages and
Boundaries
LCA and Regulatory Process – LCA Methodology
Streamlining LCA
Applications of LCA- Eco Labelling
Life Cycle Costing - Design for the Environment
34
35
37
1 & 3
1 & 3
1 & 3
International Environmental Standards ISO 14001
Environmental Audit
40
1 & 3
5 Industrial Application of CP, LCA, EMS and
Environmental Audits
45 1 & 3
REFERENCES
1.Paul L Bishop (2000)”Pollution Prevention Fundamental and Practice” McGraw-Hill
International
2. World Bank Group (1998) “Pollution Prevention and Abatement Handbook- Towards Cleaner
Production” , World Bank and UNEP, Washington D.C
3. Prasad modak, C . Visvanathan and Mandar parasnis (1995) “Cleaner Production Audit” ,
Environmental System Reviews, No.38, Asian Institute of Technology, Bangkok
Prepared By Approved by
Sija Arun HOD (Civil)
Lesson Plan
M-Tech Environmental engineering- III-Semester 2011-12
Course Code EN0717
Course Name AIR POLLUTION CONTROL
Prerequisites Nil
Category P
Lecture No Date Topic Reference
1,2 Sources and classification of Air Pollutants: Natural
contaminants-aerosol-gases and vapour
1,3
3,4 Air qualitystandards 1,3
5,6 Meteorology and Air pollution: Atmospheric stability
and inversions
1,3
7 Mixing height-plume behaviour. 1,3
8,9 plume rise estimation-effluent dispersion theories-
Isokinetic sampling -Modeling
1,3
CYCLE TEST I
10 Objectives-Filters, gravitational cyclones 1,2,3
11,12 centrifugal-multiple type cyclones, prediction of
collection efficiency
1,2,3
13,14 pressure drop across wet collectors 1,2,3
15,16 Electrostatic Precipitation theory-particle charging
collection
1,2,3
17,18 ESP design 1,2,3
19,20 Absorption: principles, description of equipment-
packed and plate columns
1,2,3
21,22 design and performance equations 1,2,3
SURPRISE TEST/ QUIZ
23,24 Adsorption: principles adsorbents, equipment
descriptions-PSA-adsorption cycle
1,2,3
25,26,27 solvent recovery system continuous rotary bed-
fluidized bed, Design and performance equations
1,2,3
28,29 Condensation: contact condensers-shell and tube
condensers, design and performance equation.
1,2,3
30, 31 Incineration: hydrocarbon incineration kinetics,
equipment description, design and performance
equations.
1,2,3
32,33 Processes based control mechanisms-mineral 4
products-asphaltic concrete,
34,35,36 cement plants -glass manufacturing plants; Thermal
power plants,
4
37,38 Petroleum refining and storage plants Fertilizers, 4
39, 40 Fertilizers, Pharmaceuticals and wood processing
industry
4
41 Noise Standards 1,2,3
42,43 Measurement and control 1,2,3
44,45 preventive measures 1,2,3
MODEL EXAMINATION
Reference Books
1. Richard W.Boubel et al, "Fundamentals of Air Pollution", Academic Press, New York,
1994
2. Noel de Nevers, "Air Pollution control Engg." McGraw-Hill, New York,1995
3. M.N. Rao et al, "Air Pollution", Tata McGraw Hill, 1989
4. Case studies- downloaded materials.
PREPARED BY HOD/CIVIL ENGG
R.RAJI
Sl.No TOPICS TO BE COVERED
HOURS
PLANNED
REFERENCE
1 Material used for piping machines 1 6, 7,8
2
Prestressed concrete, mild steel, cast iron ductile
iron 2 6,7,8
3 Material characteristics and comparison. 2 6,7,8
4 Anchorage for pipes-necessity-principle 1 6,7,8
5 Design force to be considered including 2 6,7,8
hydro dynamic forces. 6,7,8
6 Pipe laying technology 1 6,7,8
7
Capacity calculation of overhead water tanks and
sumps 2 1,2,4
use of mass curve. 1,2,4
8
Types of water tanks-RCC and prestressed
concrete 1 1,2,4
9 Cylindrical-conincal spherical - Intzc type 1 1,2,4
10 Componenets of various types of water tanks 1 1,2,4
11 Design forces acting on components including 1 1,2,4
wind/ Earthquake forces
12 Exposure to design codes 1 1,2,4
13 Use of handbooks for the design economy of 1 1,2,4
14 Different types of tanks. 1 6,7
15
Function of underground reservoirs - Intake
towers 1 4,6,7
16 Settling tanks - Clarifloculators-Aeration tanks 1 4,6,7
17 Functional design of intake tower, settling tanks 5 4,6,7
and clarifloculators
18 Nature of design forces HP-EP-Uplift forces 2 3,7,8
19 Mechanism of corrosion 1 2,5,8
20
Proneness of environmental structures to
corrosion 2 2,7,8
Sub code / Title : EN 0715 ENVIRONMENTAL ENGINEERING STRUCTURES
21
Precautions to be taken to prevent corrosion in
planning 2 2,7,8
22 Design, execution and maintenance stages 2 2,7,8
22
Rehabilitation measures for distress due to
corrosion 2 2,7,8
23 Importance of maintenance 1 3,7,8
24 Schedule of maintenance 2 3,7,8
25 Checklist for maintenance 2 3,7,8
26 Manpower for maintenance 1 3,7,8
27 Proactive maintenance 2 3,7,8
28 Consequence of non-maintenace 1 3,7,8
Branch/ Specialisation : M.Tech ENVIRONMENTAL ENGINEERING Sem / Year : III
Sem- II YEAR
Reference Books
1. Hulse R., and Mosley, W.H., "Reinforced Concrete Design by Computer", Macmillan Education
Ltd., 1986
2. Ramaswamy, G.S., "Design and Construction of Concrete shell roofs, CBS Publishers, India,
1986
3. Green, J.K and Perkins, P.H., "Concrete liquid retaining structures", Applied Science Publishers,
1981
4. "Manual on Sewerage and Sewage Development", CPHEEO, Ministry of Urban Development,
GOI, New Delhi, 1993
5. "Sewage Disposal and Air pollution Engineering", S.K. Garg Khanna Publishers, 2006 Volume-I
6. "Water Supply Engineering", S.K.-Khanna Publishers, 2006 Volume-I
7. Prestressed Concrete by Krishna Raju, Tata McGraw Hill Publishing Co, 2nd
Edition 1988
8. Reinforced Concrete by N.C.Sinha & S.K.Roy-S.Chand and Co. 1985
PREPARED BY HOD/CIVIL ENGG
Mr.G.Venketasamy
I M.Tech - Remote Sensing & GIS
Lesson Plan
M-Tech - I-Semester 2011-12
Course Code RS0501
Course Name Photogrammetry & Remote Sensing
Prerequisites Nil
Category Rs & Gis
Lecture No Date Topic Reference
1 Overview on the whole syllabus
2 Unit 1
Introduction of Remote Sensing - Multi-concept of
remote sensing
2,3,4,5
3,4 Advantages and disadvantages - Electromagnetic
Energy and EM Spectrum
1,2,3,4,5
5 interactions with earth surface - Aerial Cameras
1,2,3,4,5
6,7,8 Geometry and aerial photographs, 6,7,8,9
9,10,11 Orientation Procedures, mapping & planning aero
triangulation system
6,7,8,9
12 Discussion on Entire Unit -1 1-9
13,14 Platforms - Various types of platforms-space craft
used for data acquisition
1,2,3,4,5
15,16,17 Land observation satellites 1,2,3,4,5
18,19,20 High resolution satellites-Weather satellites 1,2,3,4,5
21 marine observation satellites-Discussion on Unit 2 1,2,3,4,5
22,23,24,25 Sensors - Concept of Microwave remote sensing -
SLAR, SAR
1,2,3,4,5
26,27
Scattrometers - Altimeter
1,2,3,4,5
28,29,30 Characteristics of microwave imageries, 1,2,3,4,5
31,32, LPS. 10
33-40 Cont.. of LPS 10
REFERENCE BOOKS
1) C.S. Agarwal and P.K. Garg. Text Book on Remote Sensing in Natural Resources,
Monitoring and Management. 2000. Wheeler publishing Co & Ltd., New Delhi
2) A.M. Chandra and S.K. Gosh. Remote Sensing and GIS, Narosa Publishing Home,
New Delhi 2002
3) Paul Curran P.J., Principles of Remote Sensing, 1983
4) Sabins R.R. Jr. "Remote Sensing Principles and Image Intrepretation", W.H. Freeman
and Company, 1978
5) Anji Reddy, Textbook of Remote Sensing and Geographical Information, BS
Publications, Hyderabad. ISBN : 81-7800-018-0
6) Wolf Paul. P., "Elements of Photogrammetry", McGraw Hill International Book
Company, 2nd editiion, 1983
7) Francies H. Moffit and Mikail, Edward M., "Photogrammetry", Harper and Row
Publi- shers, 3rd edition, 1980
8) Karl Krans, "Photogrammetry, Vol I & Vol II", Ferd DGmmler verlag, 4th edition
1997
9) American Society of Photogrammetry, 4th edition, 1980
10) ERDAS IMAGINE LPS FIELD GUIDE
Prepared By HOD / CIVIL
Mr.SatyaRameshPotti
LESSON PLAN
M..Tech Civil
Course Code RS 0503
Course Name GIS and Software
Prerequisites Should have knowledge of Geography and mathematics
Category Geographical Information System
Instructional objectives: To interpretate the spatial data and non-spatial using GIS packages.
Sl. No. Instructional objectives
1. To analysis the data and modeling
2. To editing the map elements, data error
3. To digitize the spatial data
Student outcomes
Student
outcome
number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice
Section A
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
UNIT -1
1 Introduction to GIS 1,2 h 1,2
2 components of GIS 2 a,h 1,2
3 Geographical concepts 1,2 a,e,j 1,2
4 Input data for GIS 1,2 a,e,j 1,2
5 Output products. 1,2 a,e,j 1,2
6 Sources of Data 1,2 a,e,j 1,2
UNIT-II-
7 GIS data types 1,2 a, e, j 1,2
8 Data Representation 1,2 a, e, j 1,2
9 Data sources 1,2 a, e 1,2
10 Typical GIS data sets 1,2 a, e 1,2
11 Data Acquisition, 1,2 a, e 2,3
12 verification and editing 3 a, e & k 2,3
13 Geo-referencing – Coordinate systems 2 and 3 a, e & k 2,3
14 Spatial data models and errors 1, 3 a, e & k 1,2
15 GIS database and DBMS 1, 3 a, e & k 1,2
UNIT - III
16 Data analysis 2&3 d,k 1,2
17 Measurement of length, perimeter 2 a, h, j & k 2,3
18 Area Calculation 2 h, j & k 2,3
19 Queries 2&3 h, j & k 2,3
20 Reclassification 1,2&3 h, j & k 2,3
21 Buffering analysis 1,2&3 h, j & k 1,2
UNIT- IV
22 Data integration 1,2 and 3 a, h, j 1,2
23 Map overlay 2,3 a, h, k 1,2
24 Vector and Raster overlay 1,2 and 3 a, h,k 1,2
25 Spatial interpolation 1,2 and 3 a, h,k 1,2
26 Surface analysis 2&3 a, h,k 1,2
27 Network analysis 2&3 a, h,k 1,2
28 Digital terrain visualization 2&3 a, h,k 1,2
29 TIN, DEM , Slope Aspect 2&3 a, h,k 1,2
UNIT-V
30 GIS applications 2&3 a, h,k 1,3
31 Problem identification 2&3 a, h,k 1,3
32 Designing data model 2&3 a, h,k 1,3
33 Project management and evaluation 2&3 a, h,k 1,3
34 Implementation problem 2&3 a, h,k 1,3
Practical
35 Introduction to Arc GIS 2&3 h & k 4& 5
36 Creation of personal Geo-database 2&3 h & k 4& 5
37 Geo-referencing 2&3 h & k 4& 5
38 Digitization using point, line, polyline
and Polygons
2&3 h & k 4& 5
39 Preparation of Thematic layers 2&3 h & k 4& 5
40 Layout preparation 2&3 h & k 4& 5
41 Buffer Zone creation 2&3 h & k 4& 5
42 Overlay analysis 2&3 h & k 4& 5
Reference Books
1. Burrogh P.A., Principles of Geographical Information System for Land Resources
Assessment, Oxford Publications, 1980.
2. A.M. Chandra and S.K. Ghosh 2000. Remote Sensing and GIS. Narosa Publishing
House, New Delhi.
3. Paul A. Longley, Micheal F. Goodchild, David J. Magaine David J. Magaine, David W
Rhind. Geographical Information System. Vol. I & II, John wiley & Sons.Inc1999.
4. ArcGIS-9.2 Working Manual
5. Mapinfo Professional 8.0 working manual
Faculty members handling
Section Faculty Name Signature
M.Tech RS GIS Mr. Sachikanta Nanda
LESSON PLAN
M.Tech- Remote Sensing & GIS – I Semester 2011-2012
Course Code RS0505
Course Name GPS AND ELECTRONIC SURVEYING
Prerequisites - Nil -
Category GPS
Instructional Objectives
Instructional Instructional Objectives
Objectives No.
1 To understand the basics, classifications, and Applications of
Electronic Surveying
2 To study the Electromagnetic waves
3 To study the EDMS and GPS surveying and its application
4 To study the EDMS Instruments, GPS
Student Outcomes
Student Outcome No. Student Outcome
a an ability to apply knowledge of mathematics, science, and
engineering
d an ability to function on multidisciplinary teams.
e an ability to identify, formulate, and solve engineering problems.
h the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice.
Sl.No. Date Topics to be covered Instructional
Objectives
Student
Outcome
Reference
books
1 Introduction – GPS satellites 1 k 4,5
2 Components - Satellite Ranging 1 k 4,5
3 GPS codes and Types 1 k 4,5
4 Basics of Geodesy 1 k 4,5
5 Branches, Applications and
Observations of Geodesy
4 k 4,5
6 GPS – DGPS 3 k,e 4,5
7 GPS Receiver and its Features 4 k,e 4,5
8 Receiver selection –enhancement of
GPS receiver
4 4,5
9 GPS processor Software 3 k,e 4
10 GPS Data 3 a 4
11 Processing of GPS data and types 3 a 4
12 Cycle Test a
13 GPS Field Survey techniques–
advantages– characteristics
3 e 4,5
14 Positioning modes 3 e 4,5
15 static surveying – kinematics
surveying
3 e 4,5
16 Doppler effect and basic positioning
concept
3 4,5
17 Dilution of Precision – Types 1 e 4,5
18 Systematic Solution using two
transmitters on land
1 e
19 Multi-path effect – field practices 1 a,k 4,5
20 Refractive index - factors affecting
RI
2 a,k 3
21 computation of group refractive
index for light and near infrared
waves at standard conditions
2 a,k 3
22 Quiz a,k 3
23 Measuring principle, working
principle of EDM
2,4 a,k 1,2
24 sources of errors of EDM 2,4 a,k 1,2
25 Infrared EDM instruments –
principles
2,4 a,k 1,2
26 Laser EDM instruments – principles 2,4 a,k 1,2
27 Total station – working principles 2,4 a,k 1,2
28 Sources of errors and type of errors 2,4 a,k 1,2
29 Microwave system EDM 2,4 a,k 1,2
30 Model Test
Practical
1. Collection of co-ordinates using
Hand-held GPS (points, line and
polygon)
1,2 a,k 6
2. Distances measurements from
Hand-held GPS using co-ordinates.
2,3 a,k 6
3. Downloading and Transformation
of Latitude, Longitude and data
conversion
2,3 a,k 6
4. Interlinking of GPS and GIS
software
4 a,k 6
5. GPS errors – uniform spacing – un-
uniform spacing – multipath effect
and etc.
4 a,k 7
6. Total Station 4 a,k 8
REFERENCE BOOKS
1. Burnside, C.D., Electromagnetic distance measurement, Crosby Lock wood staples, U.K.,
1971
2. Rueger, J.M., Electronic distance Measurement, Springer - Verlag, Berlin, 1990
3. Laurila, S.H., Electronic Surveying in Practice, John Wiley & Sons, Inc, 1983
4. Santheesh Gopi., Global Positioning System - Principles and Applications, Tata
McGraw-Hill Publishing Company Limited, New Delhi, 2005
5. Seeber, G., Satellite Geodesy, Walter de Gruyter, Berlin, 1993
6. Hand-held GPS working Manual
7. MMS – working manual
8. Total Station working manual
Faculty Name Signature HOD/CIVL
Dr.M.Nagarajan
M.Tech – III - Remote Sensing & GIS
LESSON PLAN
M.Tech- Remote Sensing & GIS – III Semester 2011-2012
Course Code RS0708
Course Name RS & GIS FOR AGRICULTURE AND FORESTRY
Prerequisites GIS Applications & Digital Image Processing Techniques
Category GPS, Remote Sensing & GIS
Instructional Objectives
Instructional
Objectives No.
Instructional Objectives
1 To study the Spectral characteristics of Vegetation
2 To study the Integrated analysis of GIS in agriculture and forest
development
Student Outcomes
Student Outcome No. Student Outcome
a an ability to apply knowledge of mathematics, science, and
engineering
d an ability to function on multidisciplinary teams.
e an ability to identify, formulate, and solve engineering problems.
h the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context
k an ability to use the techniques, skills, and modern engineering tools
necessary for engineering practice.
Sl.no Date Topics to be covered Instructional
Objectives
Student
Outcome
Reference
Books
1 Introduction of RS & GIS application in
agriculture and forestry
1 d 2
2 Structure of Leaf – Spectral behavior
leaf
1 d 2
3 Vegetation Indices – NDVI, TVI, SVI,
PCA
1 d 2
4 Vegetation classification and mapping 1 k 2
5 Estimation of leaf area index 2 k 2
6 Biomass estimation 2 d,k 2
7 Estimation of terrestrial carbon
assimilation in forest
2 d,k 5
8 Case studies 2 d,k 5
9 Cycle Test
10 Forestry – Forest Taxonomy 1 a 5
11 Linnaeus classification 1 a 5
12 Biodiversity characterization 1 a 5
13 Deforestation / afforestation/
encroachment mapping through RS &
GIS
2 d,k 4
14 Forest fire risk zonation 2 d,k 5
15 Case studies 2 d,k 5
16 Forest type and density mapping 2 h 4
17 Forest stock mapping 2 h 4
18 Factors for degradation of forests 2 h 4
19 Wildlife habitats suitability analysis 2 h 5
20 Case studies 2 h 4
21 Identification of crops – based on
reflectance, height etc
1 a 1
22 Acreage estimation 2 d,k 1
23 Vegetation indices – types 2 d,k 1,3
24 Production forecasting 2 d,k 1,3
25 Pest and disease attacks through remote
sensing
2 d,k
26 Crop stress detection due to flood and
drought
2 d,k
27 Command area monitoring – condition
assessment
2 d,k 1,3
28 Catchments area studies 2 d,k 1,3
29 Case studies 2 3,4
30 Quiz
31 Introduction of soil – with RS & GIS
applications
2 d,k 2,3
32 Soil survey and land use classification 2 d,k 2,3
33 Water logging 2 d,k
34 Characters of saline, alkaline soil 1 a 2,3
35 Soil erosion – types – causes
identification – mapping
2 d,k 2,3
36 Estimation of soil loss from USLE
equation using RS & GIS
2 d,k 5
37 Wasteland development 2 d,k 5
38 Case studies 2 d,k 5
39 Model test 4
REFERENCES
1. Agarwal, C.S. and P.K. Garg. Remote Sensing in Natural Resources Monitoring and
Management. Wheeler Publishers, New Delhi. 2000.
2. Bhatta, A.K. Remote Sensing and GIS. Oxford Publications. 2008.
3. Moorty, V.V.N. Land and Water Management Engineering. Kalyani Publishers, New
Delhi, 2002.
4. Steven, M.D. and Clark, J.A., Applications of Remote Sensing in Agriculture,
Buttterworths, London 1990.
5. WWW.gisdevelopment.net
Faculty Name Signature HOD/CIVL
Dr.M.Nagarajan
LESSON PLAN
M.Tech RS &GIS III Semester 2011-12
Course Code RS0707
Course Name RS and GIS for Hydrology and Water Resources
Prerequisites RS0506
Category Water resources
Instructional objectives
Instructional
objectives no.
Instructional objectives
1. To study the basic knowledge of hydrologic data
2. To study the drainage basin, groundwater and applications
3. To study the integration of hydrological data and remote sensing & GIS
Student outcomes
Student
outcome
number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering solutions
in a global, economic, environmental, and societal context
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary
for engineering practice
Section A
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Reference
UNIT -1
1 Hydrological cycle 1 a 1
2 Estimation of various components of
hydrological cycle
1,2 d,e 1
3 Rainfall - Runoff 1,2 a,h,j 1
4 Evaporation, transpiration, 1,2 a,j 1
5 Evapotranspiration and crop
evapotranspiration -
1,2 a,j 1
6 Depression and interception loss 1,2 a,j 1
7 Infiltration and percolation losses. 1,2 a,j 1
UNIT-II
8 Watershed 2 a 1,2
9 Watershed Divide 2 a 1,2
10 Streams types - Stream networks 2 a 1,2
11 Morphometric analysis 2 a 1,2
12 Linear, area, relief aspects 2 a 1,2
13 Floods - flood estimation 2,3 a,j.k 2
14 Flood control 2,3 a,j.k 2
15 Case studies 2,3 k 2
16 Case studies 2,3 k 2
UNIT - III
17 Mapping of snow covered area 3 j, k 2
18 Mapping of soil moisture area - 3 j, k 2
19 Mapping of drought affected area 2,3 j, k 2
20 Mapping of flood inundated area 3 j, k 2
21 Case studies 3 j, k 2
22 Case studies 3 j, k 2
23 Case studies 3 j, k 2
UNIT - IV
24 Aquifers and Types 1,2 a,e 1
25 Aquifers formations 1,2 a,e 1
26 Confined and Unconfined aquifers 1,2 a,e 1
27 Types of wells 1 a,e 1
28 Types of tube wells 1 a,e 1
29 Assessment of Groundwater potential
zones
1,2,3 h,j,k 1,2
30 Groundwater resources mapping. 2,3 h,j,k 1,2
UNIT-V
31 Water harvesting structures in-situ and
Ex-situ - and mapping - mapping
2,3 a,j,k 1,2
32 Mapping and monitoring of catchment 2,3 d, h,k 2
33 Mapping and monitoring of command
area
2,3 d, h,k 2
34 Mapping and monitoring of Water
logging area
2,3 d, h,k 2
35 Mapping and monitoring of salt
affected area
2,3 d, h,k 2
36 Mapping and monitoring of Land use 3 d, h,k 2
37 Mapping and monitoring of Land
cover
3 d, h,k 2
38 Geological mapping -I 3 a, h,k 2
39 Geological mapping -II 3 a, h,k 2
40 Structural Mapping 3 a, d,h,k 2
41 Reservoir Sedimentation studies 2,3 j, k 1,2
42 Sedimentation control. 2,3 j, k 1,2
43 Case studies 3 j, k 1,2
44 Case studies 3 j, k 1,2
45 Case studies 3 j.k 1,2
MODEL EXAMINATION
Text Books
1. H.M. Raghunath. Hydrology - Principles - Analysis - Design. New Age International
Publishers, New Delhi 2006.
2. C.S. Agarwal and P.K. Garg. Text Book on Remote Sensing in Natural Resources,
Monitoring and Management.2000. Wheeler publishing Co & Ltd., New Delhi.
Faculty members handling
Section Faculty Name Signature
Dr.R.Sivakumar
Lesson Plan
M-Tech Structural engineering- III-Semester 2011-12
Course Code RS0712
Course Name RS & GIS FOR URBAN & REGIONAL
PLANNING
Prerequisites Nil
Category P
Lecture No Date Topic Reference
1 Overview on the whole syllabus
2 Unit 1
Relevance of remotely sensed data for Urban &
Regional Analysis and Planning
2,3,4
3,4 Identification of settlement features from aerospace
images - Visual and digital analysis techniques
1,2,3,a
5 Scale and Resolution concepts - Scope and
limitations.
1,2,3,a
6 Related case studies & Discussion on whole 1st Unit a,b
7 Unit -2
Regional Mapping - City Mapping - Intra
2,4,b
8,9 City Mapping-Methodology - Base map preparation
- Delineation of area
1,2,3,4a,b
10 Change Detection and mapping - classification 1,2,3,a,b
11 Urban fringe - CBD - Urban sprawl -Case studies. 1,2,3,4,b
12 Case Studies & Discussion on Whole 2nd Unit 1,2,3,4,a,b
13,14 Unit -3
Regional plan - Master plan - Detailed Development
plan - Objective and contents
1,2,3,4,a,b
15,16,17 Objective and contents - Delineation of planning
area - Methodology
1,2,3,4,a,b
18,19
Integrated plans - Case studies Discussions on whole
3rd Unit.
1,2,3,4,a,b
20,21 Unit -4
Urban growth analysis - Slum development
1,2,3,4,a,b
22,23,24 House typology - Site selection for urban
development - Density analysis
1,2,3,a
25,26,27 Population estimation - Transportation network
analysis- Case studies.
1,2,3,4,a,b
28,29 Case studies & Discussion on on whole 4th Unit. 1,2,3,4,a,b
30,31 Unit -5
GIS - Data Input - Storage
a,b,c
32,33 Retrieval - Suitability of GIS software for Urban
analysis
1,2,3,4,a,b
34,35 Modeling with GIS 2,a,b,c
36,37,38,39 Decision support systems for Urban Regional
analysis
1,2,3,a,b,c
40,41 Case studies 1,2,3,4,a,b,c
42 Case studies & Discussion on whole 5th Unit 1,2,3,4,a,b,c
REFERENCE BOOKS
1) Brench M.C., City Planning & Aerial Information, Harvard University, Cambridge,
1971
2) Margaret Roberts, An Introduction to Town Planning Techniques, Hutchinson,
London 1980
3) NC Gautam, Urban landuse Interpretation through Arial Photograph Interpretation,
NRSA
4) IRS RS Applications to Urban Planning and Development Institute of Remote
Sensing.
a) A.M Chandra & S.M Gosh,Remote Sensing & Geographical Information Systems
b) WWW.gisdevelopment.net
c) C.P Loo, Introduction to Geographical Information Systems.
Prepared By HOD /CIVIL
Mr.SatyaRameshPotti
LESSON PLAN
M.Tech Civil Infrastructure Engineering- III Semester 2011-12
Course Code RS 0702
Course Name Elements of Cartography
Prerequisites Knowledge of geography and Mapping is
Required
Category CARTOGRAPHY
Instructional objectives
Instructional
objectives no.
Instructional objectives
1. To study about the map and the mapping Techniques
2. Designing, processing, methods of mapping of various data
Student outcomes
Student
outcome
number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(h) the broad education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context
(j) a knowledge of contemporary issues
Section A
Lecture
No
Date Topic Instructional
objectives
Student
outcome
Ref
ere
nce
UNIT -I
1 Cartography, Definition, scope
and content
1,2 d 1
2 The spheroid and concepts of
Geodesy
2 a, j 1
3 Map and its types 1,2 a,e,j 1
4 Methods of mapping, 1,2 a,e,j 1
5 Different types of Maps 1,2 a,e,j 1,4
6 Relief maps, thematic maps. 1,2 a,e,j 1
UNIT-II-
7 Map projection. 1,2 a, e, j 1,2,
4
8 classification principles of
construction of common
projections,
1,2 a,e,j 2
9 Different types of projections
(Cylindrical, Conical, Azimuthal
and globular projections)
1,2 a, e 2,3
10 Properties & uses of projection 1, a, e 2,3
11 Plane co-ordinates in UTM system 1 a, e 1,2,
3
12 Projection used in Survey of India
topographic sheets.
1,2 e,h,j 3
UNIT - III
13 Processing and Generalizing
geographic data
1,2 e, j, 3
14 Different Data Formats 1 e, j, 1,4
15 Different sources and Types of
error in Data.
1 e, j, 1,4
16 Color 1 d,h, 1,3,
4
17 Design of color and pattern 1 e,h 3
18 Typography and lettering the map. 1, 2 e,h 1,3,
4
19 Guidelines for Typography 1 e,h 1,4
UNIT- IV
20 Simplification and Classification 1,2 a, h, j 1,4
21 Symbolization and types 1,2 a, h, 1,4
22 Mapping with point, line and area
symbols-Portraying the land
surface form.
1,2 a, h, 1,4
23 Statistical mapping of surface area
by point line and area symbols
2 a, h, 1,3,
4
24 computer assisted cartographic
processes
2 a, h, 1,4
25 Mosaicing and over lapping 2 e,h,j 1,4
26 Digital cartographic process,
Design issues and responsibilities
1 e,h,j 1,4
UNIT-V -
27 Compilation of map 1,2 a,d,h 5
28 Map production 1 a, e, 5
29 Map reproduction 1 a, e, 5
30 Liability issues and
responsibilities.
1 a,d,e 5
31 Storage formats, 1,2 a,d, 5
32 Geographic Information System. 1 a,d,, e 5
Reference Books
1. R.W. Anson and F.J.Ormeling, Basic Cartography for students and Technicians,
Vol.., I, II and II Elsevier Aplied Science publishers 2nd Edition, 1995.
2. ARTHUR, H. ROBINSON Et al Elements of Cartography, 6th Edition, John Wiley
and Sons, 1995.
3. Advances in Cartography, Muller ISBN: 1851666036 Elsevier Science Publications.
4. Bordon D. Dent, Cartography ISBN: 0697 384950 McGraw Hill Publishers.
5. Erwin j.Raisz principles of cartography ISBN: 0070511519 McGraw Hill.
Faculty members handling
Section Faculty Name Signature
RS & GIS Mr. Sachikanta Nanda