Engineering Antennas -...

UNOFFICIAL 2015-2016 Carleton University Undergraduate Calendar UNOFFICIAL 1

EngineeringThe Co-operative Education Option is available inEngineering. See the Co-operative Education section ofthis Calendar for details.

Graduation RequirementsIn addition to the requirements listed below, students mustsatisfy:

1. the University regulations including the process ofAcademic Performance Evaluation (see the AcademicRegulations of the University section of this Calendar),

2. the Faculty regulations applying to all B.Eng. programs(see the Academic Regulations for the Bachelor ofEngineering Degree ).

Students should consult with their Department whenplanning their program and selecting courses.

Course Categories for EngineeringProgramsThe following categories of courses are used in definingthe programs.

Basic Science ElectivesCourses in this classification must be chosen from amongthose listed as acceptable for the current academic year.The list is published annually on the engineering academicsupport website: carleton.ca/engineering/uas. The listwill change from year to year and only courses on the listvalid in the year the course is taken, or courses for whichformal approval of the Faculty has been obtained can beused as credit toward an engineering degree. Coursesnot on the list may be used to fulfill a Basic Scienceelective requirement with the permission of the Faculty ofEngineering and Design and provided all other specifiedcourse requirements are met. Note that access to courseson the list is not guaranteed and may depend on spaceavailability and the satisfaction of other requirementsincluding, for example, course prerequisites.

Complementary Studies ElectivesCourses in this classification must be chosen from amongthose listed as acceptable for the current academic year.The list is published annually on the engineering academicsupport website: carleton.ca/engineering/uas. The listwill change from year to year and only courses on the listvalid in the year the course is taken, or courses for whichformal approval of the Faculty has been obtained can beused as credit toward an engineering degree. English asa Second Language courses are not acceptable for useas Complementary Studies electives in any engineeringprogram. Courses not on the list may be used to fulfill aComplementary Studies elective requirement with thepermission of the Faculty of Engineering and Design andprovided all other specified course requirements are met.Registration in CUTV sections is not acceptable. Note thataccess to courses on the list is not guaranteed and maydepend on space availability and the satisfaction of otherrequirements including, for example, course prerequisites.

Communications Electives for CommunicationsEngineering

ELEC 4503 [0.5] Radio Frequency Lines andAntennas

ELEC 4505 [0.5] Telecommunication CircuitsELEC 4506 [0.5] CAD for Communication CircuitsELEC 4509 [0.5] Communication LinksELEC 4702 [0.5] Fiber Optic CommunicationsSYSC 4607 [0.5] Wireless Communications

Program RequirementsAerospace EngineeringBachelor of EngineeringStudents in Aerospace Engineering must satisfy therequirements for one of the following streams:

Aerospace Engineering - Bachelor of EngineeringStream A: Aerodynamics, Propulsion and VehiclePerformance (21.5 credits)First Year1. 4.0 credits in: 4.0

CHEM 1101 [0.5] Chemistry for Engineering StudentsMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite

Series for Engineering or PhysicsMATH 1104 [0.5] Linear Algebra for Engineering or

SciencePHYS 1004 [0.5] Introductory Electromagnetism and

Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and Computers

2. 1.0 credit in Complementary Studies Electives 1.0Second Year3. 5.0 credits in: 5.0

MATH 2004 [0.5] Multivariable Calculus forEngineering or Physics

MATH 3705 [0.5] Mathematical Methods IMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 2700 [0.5] Engineering MaterialsECOR 2606 [0.5] Numerical MethodsCCDP 2100 [0.5] Communication Skills for

Engineering Students4. 0.5 credit in Basic Science Electives 0.5Third Year5. 5.0 credits in: 5.0

STAT 3502 [0.5] Probability and StatisticsMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3901 [0.5] Mech and Aero Engineering LabAERO 3002 [0.5] Aerospace Design and Practice

2 Engineering

AERO 3700 [0.5] Aerospace MaterialsSYSC 3600 [0.5] Systems and SimulationELEC 3605 [0.5] Electrical Engineering

Fourth Year6. 4.5 credits in: 4.5

MAAE 4500 [0.5] Feedback Control SystemsECOR 4995 [0.5] Professional PracticeAERO 4003 [0.5] Aerospace Systems DesignAERO 4302 [0.5] Aerodynamics and Heat TransferAERO 4306 [0.5] Aerospace Vehicle PerformanceAERO 4308 [0.5] Aircraft Stability and ControlMAAE 4907 [1.0] Engineering Design ProjectECOR 3800 [0.5] Engineering Economics

7. 1.5 credits in 4000-level Mechanical and AerospaceEngineering (MAAE, AERO or MECH) , or ELEC 4504

1.5

Total Credits 21.5

Aerospace Engineering - Bachelor of EngineeringStream B: Aerospace Structures, Systems and VehicleDesign (21.5 credits)First year1. 4.0 credits in: 4.0





2. 1.0 credit in Complementary Studies Electives 1.0Second year3. 5.0 credits in: 5.0




Engineering Students4. 0.5 credit in Basic Science Electives 0.5Third year5. 5.0 credits in: 5.0

STAT 3502 [0.5] Probability and StatisticsMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3901 [0.5] Mech and Aero Engineering LabAERO 3002 [0.5] Aerospace Design and Practice

AERO 3101 [0.5] Lightweight StructuresAERO 3700 [0.5] Aerospace MaterialsSYSC 3600 [0.5] Systems and SimulationELEC 3605 [0.5] Electrical Engineering

Fourth year6. 4.5 credits in: 4.5

MAAE 4500 [0.5] Feedback Control SystemsMAAE 4102 [0.5] Materials: Strength and FractureECOR 4995 [0.5] Professional PracticeAERO 4003 [0.5] Aerospace Systems DesignAERO 4602 [0.5] Introductory AeroelasticityAERO 4608 [0.5] Composite MaterialsMAAE 4907 [1.0] Engineering Design ProjectECOR 3800 [0.5] Engineering Economics

7. 1.5 credits in 4000-level MAAE, AERO, or MECH orELEC 4504

1.5

Total Credits 21.5

Aerospace Engineering - Bachelor of EngineeringStream C: Aerospace Electronics and Systems (21.5credits)First year1. 4.0 credits in: 4.0







MATH 3705 [0.5] Mathematical Methods IMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2101 [0.5] Engineering DynamicsMAAE 2202 [0.5] Mechanics of Solids IMAAE 2700 [0.5] Engineering MaterialsECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsCCDP 2100 [0.5] Communication Skills for

Engineering StudentsThird year4. 5.0 credits in: 5.0

STAT 3502 [0.5] Probability and StatisticsMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 2300 [0.5] Fluid Mechanics IAERO 3002 [0.5] Aerospace Design and PracticeSYSC 3501 [0.5] Communication Theory


SYSC 3600 [0.5] Systems and SimulationELEC 3500 [0.5] Digital ElectronicsELEC 3509 [0.5] Electronics IIELEC 3105 [0.5] Basic EM and Power EngineeringELEC 3909 [0.5] Electromagnetic Waves


ECOR 4995 [0.5] Professional PracticeAERO 4003 [0.5] Aerospace Systems DesignMAAE 4907 [1.0] Engineering Design ProjectECOR 3800 [0.5] Engineering EconomicsMAAE 4500 [0.5] Feedback Control Systems

6. 2.5 credits from: 2.5AERO 3240 [0.5] Orbital MechanicsAERO 4009 [0.5] Aviation Management and

CertificationELEC 4503 [0.5] Radio Frequency Lines and

AntennasELEC 4505 [0.5] Telecommunication CircuitsSYSC 4600 [0.5] Digital CommunicationsAERO 3841 [0.5] Spacecraft DesignAERO 4842 [0.5] Space Mission DesignELEC 4502 [0.5] Microwave CircuitsELEC 4509 [0.5] Communication LinksELEC 4600 [0.5] Radar and NavigationELEC 4706 [0.5] Digital Integrated ElectronicsSYSC 4405 [0.5] Digital Signal ProcessingSYSC 4607 [0.5] Wireless Communications

7. 0.5 credit in Basic Science Elective 0.5

Total Credits 21.5

Aerospace EngineeringStream D: Space Systems Design (21.5 credits)First year1. 4.0 credits in: 4.0

MATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite



Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersCHEM 1101 [0.5] Chemistry for Engineering Students



MATH 3705 [0.5] Mathematical Methods ICCDP 2100 [0.5] Communication Skills for

Engineering StudentsECOR 2606 [0.5] Numerical MethodsMAAE 2101 [0.5] Engineering DynamicsMAAE 2001 [0.5] Engineering Graphical Design

MAAE 2400 [0.5] Thermodynamics and HeatTransfer

MAAE 2300 [0.5] Fluid Mechanics IMAAE 2700 [0.5] Engineering MaterialsMAAE 2202 [0.5] Mechanics of Solids I

4. 0.5 credit in Basic Science Electives 0.5Third year5. 5.0 credits in: 5.0

STAT 3502 [0.5] Probability and StatisticsSYSC 3600 [0.5] Systems and SimulationELEC 3909 [0.5] Electromagnetic WavesMAAE 3004 [0.5] Dynamics of MachineryMAAE 3901 [0.5] Mech and Aero Engineering LabMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3202 [0.5] Mechanics of Solids IIAERO 3002 [0.5] Aerospace Design and PracticeAERO 3240 [0.5] Orbital MechanicsAERO 3841 [0.5] Spacecraft Design


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeAERO 4540 [0.5] Spacecraft Dynamics and ControlAERO 4446 [0.5] Heat Transfer for Aerospace

ApplicationsAERO 4842 [0.5] Space Mission DesignAERO 4442 [0.5] Transatmospheric and Spacecraft

PropulsionELEC 4509 [0.5] Communication LinksMAAE 4907 [1.0] Engineering Design Project

7. 1.5 credits from 4000-level MAAE, AERO or MECH,or AERO 3101, AERO 3700, ELEC 4503, ELEC 4600,ELEC 4709

1.5

Total Credits 21.5

Architectural Conservation and SustainabilityEngineeringBachelor of EngineeringStudents must satisfy the requirements for one of thefollowing streams:

Architectural Conservation and SustainabilityEngineeringStream A: Structural (22.0 credits)First year1. 5.5 credits in: 5.5

CHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite


ScienceECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IPHYS 1004 [0.5] Introductory Electromagnetism and

Wave MotionARCH 1000 [0.5] Intro. to ArchitectureARCC 1202 [0.5] History of Structures

4 Engineering

ENVE 1001 [0.5] Architecture and the EnvironmentSecond year2. 6.0 credits in: 6.0


CIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsENVE 2001 [0.5] Process Analysis for Environmental

EngineeringMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferECOR 1606 [0.5] Problem Solving and ComputersECOR 2606 [0.5] Numerical MethodsCCDP 2100 [0.5] Communication Skills for

Engineering StudentsARCC 2203 [0.5] Architectural Technology 3CDNS 2400 [0.5] Heritage Conservation in CanadaSTAT 2507 [0.5] Introduction to Statistical Modeling I

Third year3. 5.0 credits in: 5.0

CIVE 3202 [0.5] Mechanics of Solids IICIVE 3203 [0.5] Introduction to Structural AnalysisCIVE 3204 [0.5] Introduction to Structural DesignCIVE 3205 [0.5] Design of Structural Steel

ComponentsCIVE 3206 [0.5] Design of Reinforced Concrete

ComponentsCIVE 3207 [0.5] Historic Site Recording and

AssessmentCIVE 4202 [0.5] Wood EngineeringARCC 3202 [0.5] Architectural Technology 4ARCC 4500 [0.5] Design EconomicsARCH 4200 [0.5] Architectural Conservation

Philosophy and EthicsFourth year4. 3.5 credits in: 3.5

ECOR 4995 [0.5] Professional PracticeCIVE 4601 [0.5] Building Pathology and

RehabilitationCIVE 4918 [1.0] Design ProjectENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental QualityARCH 4206 [0.5] Recycling Architecture in Canada

and Abroad5. 2.0 credits from: 2.0

CIVE 4200 [0.5] Matrix Analysis of FramedStructures

CIVE 4201 [0.5] Finite Element Methods in CivilEngineering

CIVE 4302 [0.5] Reinforced and PrestressedConcrete Design

CIVE 4303 [0.5] Urban PlanningCIVE 4308 [0.5] Behaviour and Design of Steel

StructuresCIVE 4400 [0.5] Construction/Project ManagementCIVE 4403 [0.5] Masonry DesignCIVE 4500 [0.5] Computer Methods in Civil

Engineering

CIVE 4614 [0.5] Building Fire SafetyENVE 4003 [0.5] Air Pollution and Emissions ControlMECH 4407 [0.5] Heating and Air ConditioningSREE 4002 [0.5] The Energy Economy, Reliability

and Risk(See Note 2, below)

Total Credits 22.0

Notes:

1. For Item 1 and students transferring into ArchitecturalConservation and Sustainability Engineering(Structural or Environmental Stream), students ingood standing and who have successfully completedCHEM 1101 while registered in another engineeringprogram may replace CHEM 1001 and CHEM 1002with CHEM 1101 plus one 0.5 credit course from theBasic Science Electives list.

2. For Item 5 in the Structural Stream, CIVE 4907 mayreplace 1.0 credit.

Architectural Conservation and SustainabilityEngineeringStream B: Environmental (22.0 credits)First year1. 5.5 credits in: 5.5

CHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite


ScienceECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IPHYS 1004 [0.5] Introductory Electromagnetism and

Wave MotionARCH 1000 [0.5] Intro. to ArchitectureARCC 1202 [0.5] History of StructuresENVE 1001 [0.5] Architecture and the Environment

Second year2. 6.0 credits in: 6.0


CIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsENVE 2001 [0.5] Process Analysis for Environmental

EngineeringMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferECOR 1606 [0.5] Problem Solving and ComputersECOR 2606 [0.5] Numerical MethodsCCDP 2100 [0.5] Communication Skills for

Engineering StudentsARCC 2203 [0.5] Architectural Technology 3CDNS 2400 [0.5] Heritage Conservation in CanadaSTAT 2507 [0.5] Introduction to Statistical Modeling I



CIVE 3204 [0.5] Introduction to Structural DesignCIVE 3207 [0.5] Historic Site Recording and

AssessmentCIVE 4307 [0.5] Municipal HydraulicsENVE 2002 [0.5] MicrobiologyENVE 3001 [0.5] Water Treatment Principles and

DesignENVE 3002 [0.5] Environmental Engineering

Systems ModelingENVE 3004 [0.5] Contaminant and Pollutant

Transport in the EnvironmentARCC 3202 [0.5] Architectural Technology 4ARCC 4500 [0.5] Design EconomicsARCH 4200 [0.5] Architectural Conservation

Philosophy and EthicsFourth year4. 5.0 credits in: 5.0

ECOR 4995 [0.5] Professional PracticeCIVE 4601 [0.5] Building Pathology and

RehabilitationENVE 4005 [0.5] Wastewater Treatment Principles

and DesignENVE 4101 [0.5] Waste ManagementENVE 4104 [0.5] Environmental Planning and Impact

AssessmentENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental QualityENVE 4918 [1.0] Design ProjectARCH 4206 [0.5] Recycling Architecture in Canada

and Abroad5. 0.5 credit from: 0.5

CIVE 4400 [0.5] Construction/Project ManagementENVE 3003 [0.5] Water Resources EngineeringMECH 4401 [0.5] Power Plant AnalysisMECH 4403 [0.5] Power Generation SystemsMECH 4406 [0.5] Heat TransferENVE 4003 [0.5] Air Pollution and Emissions ControlMECH 4407 [0.5] Heating and Air ConditioningCIVE 4303 [0.5] Urban PlanningCIVE 4201 [0.5] Finite Element Methods in Civil

EngineeringCIVE 4500 [0.5] Computer Methods in Civil

EngineeringSREE 4002 [0.5] The Energy Economy, Reliability

and Risk

Total Credits 22.0

Biomedical and Electrical EngineeringBachelor of Engineering (21.0 credits)First year1. 5.0 credits in: 5.0

BIOL 1003 [0.5] Introductory Biology ICHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite


Science

PHYS 1004 [0.5] Introductory Electromagnetism andWave Motion

ECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and Computers



ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsSYSC 2006 [0.5] Foundations of Imperative

ProgrammingMATH 3705 [0.5] Mathematical Methods ICCDP 2100 [0.5] Communication Skills for

Engineering StudentsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsELEC 3105 [0.5] Basic EM and Power Engineering

3. 0.5 credit from: 0.5BIOL 2005 [0.5] Human PhysiologyBIOL 2201 [0.5] Cell Biology and BiochemistryCHEM 2203 [0.5] Organic Chemistry I


SYSC 3203 [0.5] Bioelectrical SystemsSYSC 3610 [0.5] Biomedical Systems, Modeling, and

ControlSYSC 4201 [0.5] Ethics, Research Methods

and Standards for BiomedicalEngineering

ELEC 3500 [0.5] Digital ElectronicsELEC 3908 [0.5] Physical ElectronicsSTAT 3502 [0.5] Probability and StatisticsSYSC 3006 [0.5] Computer OrganizationSYSC 3501 [0.5] Communication TheoryELEC 3909 [0.5] Electromagnetic Waves



ECOR 4995 [0.5] Professional PracticeELEC 4601 [0.5] Microprocessor SystemsSYSC 4203 [0.5] Bioinstrumentation and SignalsSYSC 4405 [0.5] Digital Signal ProcessingECOR 3800 [0.5] Engineering Economics

7. 1.0 credit in: 1.0SYSC 4917 [1.0] Biomedical Engineering Project

8. 1.0 credit from: 1.0ELEC 4709 [0.5] Integrated SensorsSYSC 4202 [0.5] Clinical EngineeringSYSC 4205 [0.5] Image Processing for Medical

Applications9. 0.5 credit from SYSC or ELEC at the 3000-level orabove with a laboratory/problem analysis component.

0.5

6 Engineering

10. 1.0 credit in Complementary Studies Electives 1.0

Total Credits 21.0

Notes:

1. For Item 3 above, with the permission of theirdepartment, students may replace this requirementwith an alternate 0.5 credit course in BIOL, BIOC orCHEM.


Biomedical and Mechanical EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0

CHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIBIOL 1003 [0.5] Introductory Biology IMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite






MATH 3705 [0.5] Mathematical Methods ICCDP 2100 [0.5] Communication Skills for

Engineering StudentsMAAE 2101 [0.5] Engineering DynamicsMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2400 [0.5] Thermodynamics and Heat

TransferMAAE 2300 [0.5] Fluid Mechanics IMAAE 2700 [0.5] Engineering MaterialsMAAE 2202 [0.5] Mechanics of Solids I



ECOR 2606 [0.5] Numerical MethodsSTAT 3502 [0.5] Probability and StatisticsSYSC 3203 [0.5] Bioelectrical SystemsSYSC 3610 [0.5] Biomedical Systems, Modeling, and

ControlSYSC 4201 [0.5] Ethics, Research Methods

and Standards for BiomedicalEngineering

MAAE 3004 [0.5] Dynamics of Machinery

MAAE 3202 [0.5] Mechanics of Solids IIMECH 3002 [0.5] Machine Design and PracticeMECH 3310 [0.5] Biofluid MechanicsMECH 3710 [0.5] Biomaterials



ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMAAE 3400 [0.5] Applied ThermodynamicsMAAE 4500 [0.5] Feedback Control SystemsMECH 4406 [0.5] Heat TransferMECH 4210 [0.5] BiomechanicsMECH 4013 [0.5] Biomedical Device Design

7. 1.0 credit in: 1.0MAAE 4907 [1.0] Engineering Design Project

8. 0.5 credit in MAAE, MECH or AERO at the 4000-level,SYSC 4202 [0.5], SYSC 4203 [0.5]

0.5


Total Credits 21.5

Notes:



Civil EngineeringBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5




Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersCCDP 2100 [0.5] Communication Skills for

Engineering Students2. 0.5 credit in Complementary Studies Electives 0.5Second year3. 5.0 credits in: 5.0

ERTH 2404 [0.5] Engineering GeoscienceMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods I


CIVE 2004 [0.5] GIS, Surveying, and GraphicsCIVE 2101 [0.5] Mechanics IICIVE 2200 [0.5] Mechanics of Solids ICIVE 2700 [0.5] Civil Engineering MaterialsMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferECOR 2606 [0.5] Numerical Methods

4. 0.5 credit in Complementary Studies Electives 0.5Third year5. 5.0 credits in: 5.0

STAT 2507 [0.5] Introduction to Statistical Modeling ICIVE 3202 [0.5] Mechanics of Solids IICIVE 3203 [0.5] Introduction to Structural AnalysisCIVE 3204 [0.5] Introduction to Structural DesignCIVE 3205 [0.5] Design of Structural Steel

ComponentsCIVE 3206 [0.5] Design of Reinforced Concrete

ComponentsCIVE 3208 [0.5] Geotechnical MechanicsCIVE 3304 [0.5] Transportation Engineering and

PlanningECOR 3800 [0.5] Engineering EconomicsELEC 3605 [0.5] Electrical Engineering

6. 0.5 credit in Complementary Studies Electives 0.5Fourth year7. 3.0 credits in: 3.0

CIVE 4208 [0.5] Geotechnical EngineeringCIVE 4209 [0.5] Highway EngineeringCIVE 4407 [0.5] Municipal EngineeringCIVE 4918 [1.0] Design ProjectECOR 4995 [0.5] Professional Practice

8. 2.0 credits from: 2.0CIVE 4200 [0.5] Matrix Analysis of Framed

StructuresCIVE 4201 [0.5] Finite Element Methods in Civil

EngineeringCIVE 4202 [0.5] Wood EngineeringCIVE 4301 [0.5] Foundation EngineeringCIVE 4302 [0.5] Reinforced and Prestressed

Concrete DesignCIVE 4303 [0.5] Urban PlanningCIVE 4307 [0.5] Municipal HydraulicsCIVE 4308 [0.5] Behaviour and Design of Steel

StructuresCIVE 4400 [0.5] Construction/Project ManagementCIVE 4403 [0.5] Masonry DesignCIVE 4500 [0.5] Computer Methods in Civil

EngineeringCIVE 4614 [0.5] Building Fire SafetyCIVE 4907 [1.0] Engineering ProjectENVE 3003 [0.5] Water Resources EngineeringENVE 4105 [0.5] Green Building Design


Total Credits 21.5

Communications EngineeringBachelor of Engineering (21.5 credits)First year1. 4.0 credits in: 4.0







SYSC 2001 [0.5] Computer Systems FoundationsSYSC 2006 [0.5] Foundations of Imperative

ProgrammingELEC 2501 [0.5] Circuits and SignalsCCDP 2100 [0.5] Communication Skills for

Engineering StudentsMATH 3705 [0.5] Mathematical Methods ISYSC 2003 [0.5] Introductory Real-Time SystemsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsSYSC 2004 [0.5] Object-Oriented Software

Development4. 0.5 credit in Basic Science Electives 0.5Third year5. 4.5 credits in: 4.5

STAT 2605 [0.5] Probability ModelsELEC 3509 [0.5] Electronics IIELEC 3500 [0.5] Digital ElectronicsELEC 3909 [0.5] Electromagnetic WavesSYSC 3503 [0.5] Communication Theory IISYSC 4602 [0.5] Computer CommunicationsECOR 3800 [0.5] Engineering EconomicsSYSC 3500 [0.5] Signals and SystemsSYSC 4502 [0.5] Communications Software

6. 0.5 credit in SYSC or ELEC at the 3000- or 4000-level 0.5Fourth year7. 3.0 credits in: 3.0

SYSC 4604 [0.5] Digital Communication TheorySYSC 4504 [0.5] Distributed Network ProcessingECOR 4995 [0.5] Professional PracticeSYSC 4700 [0.5] Telecommunications EngineeringSYSC 4701 [0.5] Communications Systems LabSYSC 4405 [0.5] Digital Signal Processing

8. 1.0 credit from: 1.0SYSC 4937 [1.0] Communications Engineering

ProjectELEC 4907 [1.0] Engineering Project

8 Engineering

9. 1.0 credit in Communications Electives forCommunications Engineering

1.0

10. 0.5 credit in SYSC or ELEC at the 3000- or 4000-level

0.5


Total Credits 21.5

Note: For Item 8 above, students should register in SYSC4937 if their supervisor is in Systems and ComputerEngineering, or in ELEC 4907 if their supervisor is inElectronics.

Computer Systems EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0



SciencePHYS 1003 [0.5] Introductory Mechanics and

ThermodynamicsPHYS 1004 [0.5] Introductory Electromagnetism and

Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics ISYSC 1005 [0.5] Introduction to Software

DevelopmentSYSC 2006 [0.5] Foundations of Imperative

ProgrammingSecond year2. 5.0 credits in: 5.0

CCDP 2100 [0.5] Communication Skills forEngineering Students


MATH 3705 [0.5] Mathematical Methods ISYSC 2001 [0.5] Computer Systems FoundationsSYSC 2003 [0.5] Introductory Real-Time SystemsSYSC 2004 [0.5] Object-Oriented Software

DevelopmentSYSC 2100 [0.5] Algorithms and Data StructuresELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching Circuits


STAT 3502 [0.5] Probability and StatisticsECOR 3800 [0.5] Engineering EconomicsSYSC 3010 [0.5] Computer Systems Development

ProjectSYSC 3020 [0.5] Introduction to Software

EngineeringSYSC 3303 [0.5] Real-Time Concurrent SystemsSYSC 3501 [0.5] Communication TheorySYSC 3600 [0.5] Systems and SimulationSYSC 3601 [0.5] Microprocessor Systems

SYSC 4001 [0.5] Operating SystemsELEC 3500 [0.5] Digital Electronics


SYSC 4507 [0.5] Computer Systems ArchitectureSYSC 4602 [0.5] Computer CommunicationsSYSC 4805 [0.5] Computer Systems Design LabELEC 4705 [0.5] Electronic Materials, Devices and

Transmission MediaECOR 4995 [0.5] Professional Practice

6. 1.0 credit from: 1.0SYSC 4907 [1.0] Engineering ProjectELEC 4907 [1.0] Engineering Project

7. 2.0 credits from: 2.0MECH 4503 [0.5] An Introduction to RoboticsECOR 2606 [0.5] Numerical Methods

or SYSC or ELEC at the 3000-level or above8. 0.5 credit in Complementary Studies Electives 0.5

Total Credits 21.5

Note: For Item 6 above, students should register in SYSC4907 if their supervisor is in Systems and ComputerEngineering, or in ELEC 4907 if their supervisor is inElectronics.

Electrical EngineeringBachelor of Engineering (21.5 credits) First year1. 4.0 credits in: 4.0







ECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsSYSC 2006 [0.5] Foundations of Imperative

ProgrammingMATH 3705 [0.5] Mathematical Methods ISYSC 2004 [0.5] Object-Oriented Software

DevelopmentELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching CircuitsCCDP 2100 [0.5] Communication Skills for

Engineering Students4. 0.5 credit in Complementary Studies 0.55. 0.5 credit in Basic Science Electives 0.5Third year


6. 5.0 credits in: 5.0SYSC 3600 [0.5] Systems and SimulationELEC 3509 [0.5] Electronics IIELEC 3500 [0.5] Digital ElectronicsELEC 3908 [0.5] Physical ElectronicsELEC 3105 [0.5] Basic EM and Power EngineeringSTAT 3502 [0.5] Probability and StatisticsSYSC 3006 [0.5] Computer OrganizationSYSC 3501 [0.5] Communication TheoryELEC 3909 [0.5] Electromagnetic WavesELEC 3907 [0.5] Engineering Project


ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4601 [0.5] Microprocessor Systems

8. 1.0 credit from: 1.0SYSC 4907 [1.0] Engineering ProjectELEC 4907 [1.0] Engineering Project

9. 3.0 credits from: 3.0MECH 4503 [0.5] An Introduction to RoboticsSYSC 3020 [0.5] Introduction to Software

EngineeringSYSC 3200 [0.5] Industrial Engineering

or ELEC OR SYSC at the 4000-level10. 0.5 credit from: 0.5Basic Science Electives, orENVE, CIVE, IDES, MAAE, AERO, MECH at the 2000-level or above, or

MECH 4503 [0.5] An Introduction to RoboticsSYSC 3020 [0.5] Introduction to Software

EngineeringSYSC 3200 [0.5] Industrial Engineering

or any ELEC or SYSC at the 4000-level

Total Credits 21.5

Note: For Item 8 above, students should register in ELEC4907 if their supervisor is in Electronics, and in SYSC4907 if their supervisor is in Systems and ComputerEngineering.

Engineering PhysicsBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5




SciencePHYS 1001 [0.5] Foundations of Physics IPHYS 1002 [0.5] Foundations of Physics IIECOR 1606 [0.5] Problem Solving and ComputersELEC 1908 [0.5] First Year Project

2. 0.5 credit in Complementary Studies Electives 0.5Second year

3. 5.0 credits in: 5.0MATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsMATH 3705 [0.5] Mathematical Methods IPHYS 2202 [0.5] Wave Motion and OpticsPHYS 2604 [0.5] Modern Physics ISYSC 2006 [0.5] Foundations of Imperative

ProgrammingSYSC 2004 [0.5] Object-Oriented Software

DevelopmentECOR 2606 [0.5] Numerical MethodsELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IELEC 2607 [0.5] Switching Circuits


STAT 3502 [0.5] Probability and StatisticsPHYS 3606 [0.5] Modern Physics IIPHYS 3701 [0.5] Elements of Quantum MechanicsPHYS 3807 [0.5] Mathematical Physics ISYSC 3501 [0.5] Communication TheoryELEC 3105 [0.5] Basic EM and Power EngineeringELEC 3500 [0.5] Digital ElectronicsELEC 3509 [0.5] Electronics IIELEC 3908 [0.5] Physical ElectronicsELEC 3909 [0.5] Electromagnetic WavesSYSC 3600 [0.5] Systems and Simulation


PHYS 4007 [0.5] Fourth-Year Physics Laboratory:Selected Experiments andSeminars

PHYS 4707 [0.5] Introduction to Quantum MechanicsI

ECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeELEC 4908 [1.0] Engineering Physics Project

6. 1.0 credit in PHYS at the 4000-level, which mustinclude one of:

1.0

PHYS 4203 [0.5] Physical Applications of FourierAnalysis

PHYS 4208 [0.5] Modern OpticsPHYS 4409 [0.5] Thermodynamics and Statistical

PhysicsPHYS 4508 [0.5] Solid State PhysicsPHYS 4807 [0.5] Computational Physics

7. 1.0 credit in ELEC at the 4000-level excluding:ELEC 4504, ELEC 4600, ELEC 4703, and ELEC 4705

1.0


Total Credits 21.5

Environmental EngineeringBachelor of Engineering (21.0 credits) First year1. 5.0 credits in: 5.0

CHEM 1001 [0.5] General Chemistry ICHEM 1002 [0.5] General Chemistry IIMATH 1004 [0.5] Calculus for Engineering or Physics

10 Engineering

MATH 1005 [0.5] Differential Equations and InfiniteSeries for Engineering or Physics

MATH 1104 [0.5] Linear Algebra for Engineering orScience

PHYS 1004 [0.5] Introductory Electromagnetism andWave Motion

ECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersCCDP 2100 [0.5] Communication Skills for

Engineering StudentsSecond year2. 5.0 credits in: 5.0

CHEM 2800 [0.5] Foundations for EnvironmentalChemistry

ERTH 2404 [0.5] Engineering GeoscienceMATH 2004 [0.5] Multivariable Calculus for

Engineering or PhysicsENVE 2001 [0.5] Process Analysis for Environmental

EngineeringBIOL 1003 [0.5] Introductory Biology IBIOL 1004 [0.5] Introductory Biology IICIVE 2200 [0.5] Mechanics of Solids IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferECOR 2606 [0.5] Numerical Methods


CHEM 3800 [0.5] The Chemistry of EnvironmentalPollutants

ENVE 3001 [0.5] Water Treatment Principles andDesign

ENVE 3002 [0.5] Environmental EngineeringSystems Modeling

ENVE 3003 [0.5] Water Resources EngineeringENVE 3004 [0.5] Contaminant and Pollutant

Transport in the EnvironmentCIVE 2700 [0.5] Civil Engineering MaterialsCIVE 3208 [0.5] Geotechnical MechanicsCIVE 4307 [0.5] Municipal HydraulicsECOR 3800 [0.5] Engineering EconomicsSTAT 2507 [0.5] Introduction to Statistical Modeling I


ENVE 4003 [0.5] Air Pollution and Emissions ControlENVE 4005 [0.5] Wastewater Treatment Principles

and DesignENVE 4006 [0.5] Contaminant HydrogeologyENVE 4101 [0.5] Waste ManagementENVE 4104 [0.5] Environmental Planning and Impact

AssessmentENVE 4918 [1.0] Design ProjectECOR 4995 [0.5] Professional Practice

5. 1.0 credit from: 1.0ENVE 4002 [0.5] Environmental Geotechnical

EngineeringENVE 4105 [0.5] Green Building DesignENVE 4106 [0.5] Indoor Environmental Quality

ENVE 4907 [1.0] Engineering ProjectCIVE 3304 [0.5] Transportation Engineering and

PlanningCIVE 4208 [0.5] Geotechnical EngineeringCIVE 4301 [0.5] Foundation EngineeringCIVE 4303 [0.5] Urban PlanningCIVE 4400 [0.5] Construction/Project ManagementMECH 4401 [0.5] Power Plant AnalysisMECH 4403 [0.5] Power Generation SystemsMECH 4406 [0.5] Heat TransferMECH 4407 [0.5] Heating and Air ConditioningSYSC 3200 [0.5] Industrial EngineeringSREE 3001 [0.5] Sustainable and Renewable

Energy SourcesSREE 4002 [0.5] The Energy Economy, Reliability

and Risk6. 1.0 credit in Complementary Studies Electives 1.0

Total Credits 21.0

Note: For Item 1 above and students transferring intoEnvironmental Engineering, students in good standingand who have successfully completed CHEM 1101 whileregistered in another engineering program may replaceCHEM 1001 and CHEM 1002 with CHEM 1101 plus one0.5 credit either from the Basic Science Electives forEngineering or the Science Electives list.

Mechanical EngineeringBachelor of Engineering (21.5 credits)First year1. 4.0 credits in: 4.0









Engineering Students4. 0.5 credit in Basic Science Electives 0.5



STAT 3502 [0.5] Probability and StatisticsMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3901 [0.5] Mech and Aero Engineering LabMECH 3002 [0.5] Machine Design and PracticeMECH 3700 [0.5] Principles of ManufacturingSYSC 3600 [0.5] Systems and SimulationELEC 3605 [0.5] Electrical Engineering


MAAE 4500 [0.5] Feedback Control SystemsMAAE 4102 [0.5] Materials: Strength and FractureMECH 4003 [0.5] Mechanical Systems DesignMECH 4406 [0.5] Heat TransferMAAE 4907 [1.0] Engineering Design ProjectECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional Practice

7. 2.0 credits from: 2.0ELEC 4504 [0.5] Avionics Systems

MECH, AERO, MAAE at the 4000-level

Total Credits 21.5

Mechanical Engineering with Concentration inIntegrated ManufacturingBachelor of Engineering (22.0 credits)First year1. 4.0 credits in: 4.0









Engineering Students


STAT 3502 [0.5] Probability and StatisticsMAAE 3004 [0.5] Dynamics of MachineryMAAE 3202 [0.5] Mechanics of Solids IIMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsMAAE 3901 [0.5] Mech and Aero Engineering LabMECH 3002 [0.5] Machine Design and PracticeMECH 3700 [0.5] Principles of ManufacturingSYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and SimulationELEC 3605 [0.5] Electrical Engineering


MAAE 4500 [0.5] Feedback Control SystemsMAAE 4102 [0.5] Materials: Strength and FractureMAAE 4907 [1.0] Engineering Design ProjectECOR 4995 [0.5] Professional PracticeMECH 4003 [0.5] Mechanical Systems DesignMECH 4406 [0.5] Heat TransferECOR 3800 [0.5] Engineering Economics

7. 1.5 credits from: 1.5MECH 4501 [0.5] State Space Modeling and ControlMECH 4503 [0.5] An Introduction to RoboticsMECH 4604 [0.5] Finite Element MethodsMECH 4704 [0.5] Integrated Manufacturing - CIMSMECH 4705 [0.5] CAD/CAMMECH 4805 [0.5] Measurement and Data SystemsMECH 4806 [0.5] Mechatronics

8. 0.5 credit in: 0.5MECH, AERO, MAAE at the 4000-level, or

ELEC 4504 [0.5] Avionics Systems

Total Credits 22.0

Software EngineeringBachelor of Engineering (21.5 credits)First year1. 5.0 credits in: 5.0

CHEM 1101 [0.5] Chemistry for Engineering StudentsECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IMATH 1004 [0.5] Calculus for Engineering or PhysicsMATH 1005 [0.5] Differential Equations and Infinite


SciencePHYS 1003 [0.5] Introductory Mechanics and

ThermodynamicsPHYS 1004 [0.5] Introductory Electromagnetism and

Wave MotionSYSC 1005 [0.5] Introduction to Software

DevelopmentSYSC 2006 [0.5] Foundations of Imperative

ProgrammingSecond year2. 4.5 credits in: 4.5

12 Engineering



COMP 1805 [0.5] Discrete Structures ISYSC 2001 [0.5] Computer Systems FoundationsSYSC 2003 [0.5] Introductory Real-Time SystemsSYSC 2004 [0.5] Object-Oriented Software

DevelopmentSYSC 2100 [0.5] Algorithms and Data StructuresELEC 2501 [0.5] Circuits and SignalsELEC 2607 [0.5] Switching Circuits


COMP 3005 [0.5] Database Management SystemsECOR 3800 [0.5] Engineering EconomicsSYSC 3110 [0.5] Software Development ProjectSYSC 3101 [0.5] Programming LanguagesSYSC 3120 [0.5] Software Requirements

EngineeringSYSC 3303 [0.5] Real-Time Concurrent SystemsSYSC 4001 [0.5] Operating SystemsSYSC 4106 [0.5] Software Product ManagementSTAT 3502 [0.5] Probability and Statistics

5. 0.5 credit from: 0.5ELEC 2507 [0.5] Electronics ISYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and SimulationSYSC 3601 [0.5] Microprocessor SystemsSYSC 4102 [0.5] Performance EngineeringSYSC 4502 [0.5] Communications SoftwareSYSC 4504 [0.5] Distributed Network ProcessingSYSC 4602 [0.5] Computer CommunicationsELEC 4708 [0.5] Advanced Digital Integrated Circuit

DesignELEC 4509 [0.5] Communication LinksELEC 4506 [0.5] CAD for Communication Circuits


ECOR 4995 [0.5] Professional PracticeSYSC 4101 [0.5] Software ValidationSYSC 4005 [0.5] Discrete Simulation/ModelingSYSC 4120 [0.5] Software Architecture and DesignSYSC 4507 [0.5] Computer Systems ArchitectureSYSC 4806 [0.5] Software Engineering LabELEC 4705 [0.5] Electronic Materials, Devices and

Transmission Media7. 1.0 credit in: 1.0

SYSC 4927 [1.0] Software Engineering Project8. 1.0 credit from the list in Item 5 1.09. 0.5 credit from the list in Item 5, or from: 0.5

SYSC 4105 [0.5] Engineering ManagementSYSC 4107 [0.5] Software BusinessCOMP 3002 [0.5] Compiler ConstructionCOMP 4000 [0.5] Distributed Operating SystemsCOMP 4001 [0.5] Distributed ComputingCOMP 4002 [0.5] Real-Time 3D Game Engines

COMP 4003 [0.5] Transaction Processing SystemsCOMP 4106 [0.5] Artificial Intelligence

Total Credits 21.5

Sustainable and Renewable Energy Stream A:Smart Technologies for Power Generation andDistributionBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5




Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersCHEM 1101 [0.5] Chemistry for Engineering StudentsCCDP 2100 [0.5] Communication Skills for

Engineering Students2. 0.5 credit in Complementary Studies Electives 0.53. Successful completion of: 0.0

SREE 1000 [0.0] Introduction to Sustainable EnergySecond year4. 5.0 credits in: 5.0


MATH 3705 [0.5] Mathematical Methods IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferENVE 2001 [0.5] Process Analysis for Environmental

EngineeringELEC 2501 [0.5] Circuits and SignalsELEC 2507 [0.5] Electronics IECOR 2606 [0.5] Numerical MethodsSYSC 2006 [0.5] Foundations of Imperative

ProgrammingELEC 2607 [0.5] Switching Circuits


STAT 3502 [0.5] Probability and StatisticsSYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and SimulationSYSC 3006 [0.5] Computer OrganizationMAAE 3400 [0.5] Applied ThermodynamicsELEC 4602 [0.5] Electrical Power EngineeringSREE 3001 [0.5] Sustainable and Renewable

Energy SourcesSREE 3002 [0.5] Energy Distribution and Efficient

UtilizationSREE 3003 [0.5] Sustainable Energy Systems

DesignELEC 3508 [0.5] Power Electronics

Fourth year


7. 4.0 credits in: 4.0SYSC 4505 [0.5] Automatic Control Systems ISYSC 4602 [0.5] Computer CommunicationsENVE 4003 [0.5] Air Pollution and Emissions ControlECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeSREE 4001 [0.5] Efficient Energy ConversionSREE 4002 [0.5] The Energy Economy, Reliability

and RiskELEC 4703 [0.5] Solar Cells

8. 1.0 credit in: 1.0SREE 4907 [1.0] Energy Engineering Project

9. 0.5 credit in any 3000-level or 4000-level Engineeringcourse for which prerequisites have been satisfied

0.5

10. 0.5 credit in any 4000-level Engineering course forwhich prerequisites have been satisfied

0.5

Total Credits 21.5

Sustainable and Renewable Energy Stream B:Efficient Energy Generation and ConversionBachelor of Engineering (21.5 credits)First year1. 4.5 credits in: 4.5




Wave MotionECOR 1010 [0.5] Introduction to EngineeringECOR 1101 [0.5] Mechanics IECOR 1606 [0.5] Problem Solving and ComputersCHEM 1101 [0.5] Chemistry for Engineering StudentsCCDP 2100 [0.5] Communication Skills for

Engineering Students2. 0.5 credit in Complementary Studies Electives 0.53. Successful completion of: 0.0

SREE 1000 [0.0] Introduction to Sustainable EnergySecond year4. 5.0 credits in: 5.0


MATH 3705 [0.5] Mathematical Methods IMAAE 2300 [0.5] Fluid Mechanics IMAAE 2400 [0.5] Thermodynamics and Heat

TransferENVE 2001 [0.5] Process Analysis for Environmental

EngineeringELEC 3605 [0.5] Electrical EngineeringMAAE 2101 [0.5] Engineering DynamicsECOR 2606 [0.5] Numerical MethodsMAAE 2001 [0.5] Engineering Graphical DesignMAAE 2202 [0.5] Mechanics of Solids I


STAT 3502 [0.5] Probability and Statistics

SYSC 3200 [0.5] Industrial EngineeringSYSC 3600 [0.5] Systems and SimulationMAAE 2700 [0.5] Engineering MaterialsMAAE 3300 [0.5] Fluid Mechanics IIMAAE 3400 [0.5] Applied ThermodynamicsELEC 4602 [0.5] Electrical Power EngineeringSREE 3001 [0.5] Sustainable and Renewable

Energy SourcesSREE 3002 [0.5] Energy Distribution and Efficient

UtilizationSREE 3003 [0.5] Sustainable Energy Systems

DesignFourth year7. 4.0 credits in: 4.0

MAAE 4500 [0.5] Feedback Control SystemsENVE 4003 [0.5] Air Pollution and Emissions ControlECOR 3800 [0.5] Engineering EconomicsECOR 4995 [0.5] Professional PracticeMECH 4406 [0.5] Heat TransferSREE 4001 [0.5] Efficient Energy ConversionSREE 4002 [0.5] The Energy Economy, Reliability

and RiskMECH 4408 [0.5] Thermofluids and Energy Systems

Design8. 1.0 credit in: 1.0

SREE 4907 [1.0] Energy Engineering Project9. 0.5 credit in any 3000-level or 4000-level Engineeringcourse for which prerequisites have been satisfied

0.5

10. 0.5 credit in any 4000-level Engineering course forwhich prerequisites have been satisfied

0.5

Total Credits 21.5

Aerospace Engineering (AERO) CoursesDepartment of Mechanical and AerospaceEngineeringFaculty of Engineering and Design

AERO 3002 [0.5 credit]Aerospace Design and PracticeDesign approach and phases. Design integration.Influence of mission and other requirements on vehicleconfiguration. Trade-off studies, sizing and configurationlayout. Flight vehicle loads, velocity-load factor diagram.Structural design: overall philosophy, role in designprocess, methods.Prerequisite(s): MAAE 2001 and third-year status inEngineering.Lectures three hours a week, problem analysis three hoursa week.

14 Engineering

AERO 3101 [0.5 credit]Lightweight StructuresStructural concepts; theory of elasticity; bending, torsionand shear in thin-walled beams having single or multi-cellsections; work and energy principles; deformation andforce analysis of advanced structures, including stiffenedthin-wall panels; finite element methods. Stability andbuckling of thin-walled structures.Prerequisite(s): MAAE 3202.Lectures three hours a week; problem analysis andlaboratories one hour a week.

AERO 3240 [0.5 credit]Orbital MechanicsReview of rigid body dynamics, orbital elements, Kepleriantwo-body problem, orbit transfers, rendezvous, time offlight, interplanetary trajectories, manoeuvres (flyby,capture). Orbit determination and perturbations. Advancedtopics: restricted three body problem, Lagrange'splanetary equations.Prerequisite(s): MAAE 2101.Lectures three hours per week, tutorial one hour per week.

AERO 3700 [0.5 credit]Aerospace MaterialsProperties, behaviour and manufacturing methods formetals, polymers and ceramics used in aerospaceapplications. Specialty alloys for gas turbines. Propertiesand manufacture of aerospace composites. Behaviour ofmaterials in space.Prerequisite(s): MAAE 2700.Lectures three hours a week; problem analysis andlaboratories one hour a week.

AERO 3841 [0.5 credit]Spacecraft DesignDesign of spacecraft and spacecraft subsystems withemphasis on mission requirements and current designmethods: spacecraft configuration, payload, structural,attitude control, thermal, power, and other relatedsubsystems. Spacecraft integration and testing.Precludes additional credit for AERO 4801.Prerequisite(s): MAAE 2001 and and AERO 3240.Lectures three hours a week, tutorials or laboratories threehours per week.

AERO 4003 [0.5 credit]Aerospace Systems DesignStress and deflection analysis; fatigue, safe life, damagetolerant design. Propulsion systems integration; landinggear; control and other subsystems. Mechanicalcomponent design. Airworthiness regulations andcertification procedures. Weight and cost estimation andcontrol. System reliability. Design studies of aircraft orspacecraft components.Prerequisite(s): MAAE 2202 and AERO 3002.Lectures three hours a week, problem analysis three hoursa week.

AERO 4009 [0.5 credit]Aviation Management and CertificationProduct development, quality control. Strategicorganizational analysis and design. Airworthiness, typecertification and planning, delegation of authority, airplaneflight manual. Aerospace system design and safety.Prerequisite(s): fourth-year status in Engineering.Lectures three hours per week.

AERO 4300 [0.5 credit]Acoustics and Noise ControlBehaviour of compressible fluids, sound waves andproperties of sound sources; measurement of sound;human perception of sound; prediction methods basedon energy considerations; sound propagation in realisticenvironments: outdoors, rooms, ducts; absorption andtransmission loss, noise control; case studies.Prerequisite(s): MATH 3705 and fourth-year status inEngineering.Lectures three hours a week.

AERO 4302 [0.5 credit]Aerodynamics and Heat TransferDifferential equations of motion. Viscous and inviscidregions. Potential flow: superposition; thin airfoils; finitewings; compressibility corrections. Viscous flow: thinshear layer approximation; laminar layers; transition;turbulence modeling. Convective heat transfer: free versusforced convection; energy and energy integral equations;turbulent diffusion.Prerequisite(s): MAAE 3300.Also offered at the graduate level, with differentrequirements, as MECH 5000., for which additional creditis precluded.Lectures three hours a week.

AERO 4304 [0.5 credit]Computational Fluid DynamicsDifferential equations of motion. Numerical integrationof ordinary differential equations. Potential flows: panelmethods; direct solution; vortex-lattice methods. Finite-difference formulations: explicit versus implicit methods;stability. Parabolized and full Navier-Stokes equations;conservation form. Transonic and supersonic flows:upwind differencing. Grid transformations. Computer-based assignments.Prerequisite(s): MAAE 3300 or MECH 3310.Lectures three hours a week.

AERO 4306 [0.5 credit]Aerospace Vehicle PerformanceMorphology of aircraft and spacecraft. Performanceanalysis of fixed wing aircraft: drag estimation, propulsion,take-off, climb and landing, endurance, payload/range,manoeuvres; operational economics. Performanceanalysis of rotor craft: rotor-blade motion, hovering andvertical ascent, forward flight, and autorotation. Rocketpropulsion; escape velocity; orbital dynamics.Prerequisite(s): MAAE 3300.Lectures three hours a week.


AERO 4308 [0.5 credit]Aircraft Stability and ControlStatic stability and control: equilibrium requirements;longitudinal stability requirements; neutral points;manoeuvring flight; control forces and controlrequirements; lateral static stability certificationrequirements. Dynamic stability: axis systems; governingequations; phugoid and short period modes; lateraldynamic modes. Closed-loop control.Prerequisite(s): MAAE 3300. Additional recommendedbackground: MAAE 4500.Also offered at the graduate level, with differentrequirements, as MECH 5101., for which additional creditis precluded.Lectures three hours a week.

AERO 4402 [0.5 credit]Aerospace PropulsionPropulsion requirements, effects of Mach Number,altitude, and application; basic propeller theory; propeller,turboshaft, turbojet, turbofan and rocket; cycle analysisand optimization for gas turbine power plant; inter-relationsbetween thermodynamic, aerodynamic and mechanicaldesigns; rocket propulsion; selection of aeroengines.Precludes additional credit for MECH 4401.Prerequisite(s): MAAE 2400 and MAAE 3300.Lectures three hours a week.

AERO 4442 [0.5 credit]Transatmospheric and Spacecraft PropulsionPlanetary/interplanetary environments and effects. Launchand spacecraft propulsion: liquid/solid/hybrid rockets,ram/scramjets, combined cycle engines, electrothermal,electromagnetic, electrostatic, nuclear, and propellantlesspropulsion. Trajectory analysis, multi-staging, separationdynamics. Advanced engine concepts.Prerequisite(s): AERO 4302 or AERO 4446 orMECH 4406.Lectures three hours a week.

AERO 4446 [0.5 credit]Heat Transfer for Aerospace ApplicationsFundamentals of heat transfer with emphasis onaerospace systems design. Conduction, convection andradiation modes of heat transfer. Radiation exchangebetween surfaces and view factors. Radiation inspacecraft thermal control. High speed flight and reentryheating.Precludes additional credit for MECH 4406.Prerequisite(s): MAAE 2400, MAAE 3300.Lectures three hours a week.

AERO 4540 [0.5 credit]Spacecraft Dynamics and ControlRigid body dynamics. The dynamic behavior of spacecraft.Environmental torques. The design of attitude controlsystems. Gravity gradient, spin, and dual spin stabilization.Attitude manoeuvres. The design of automatic controlsystems. Impacts of attitude stabilization techniques onmission performance.Prerequisite(s): MATH 3705, AERO 3240 and SYSC 3600.Lectures three hours a week.

AERO 4602 [0.5 credit]Introductory AeroelasticityReview of structural behaviour of lifting surface elements;structural dynamics, Laplace Transforms, dynamicstability; modal analysis; flutter, Theodorsen's theory;flutter of a typical section; wing flutter, T-tail flutter,propeller whirl flutter; gust response; buffeting, limit cycleflutter.Prerequisite(s): MAAE 3300 and SYSC 3600.Lectures three hours a week.

AERO 4607 [0.5 credit]Rotorcraft Aerodynamics and PerformanceRotorcraft history and fundamentals. Momentum theory:hover, axial climb and descent, autorotation, forward flight,momentum theory for coaxial and tandem rotors. Bladeelement analysis. Rotor airfoil aerodynamics. Rotor bladedynamics and trim. Helicopter performance, height-velocitycurves, conceptual design. High-speed rotorcraft.Prerequisite(s): MAAE 3300 and MAAE 3004.Lectures three hours per week.

AERO 4608 [0.5 credit]Composite MaterialsReinforcing mechanisms in composite materials; materialproperties. Strength and elastic constants of unidirectionalcomposites; failure criteria. Analysis of laminated plates;bending and eigenvalue problems. Environmental effectsand durability. Damage tolerance. Design of compositestructures.Prerequisite(s): MAAE 3202.Lectures three hours a week.

AERO 4609 [0.5 credit]Joining of MaterialsDesign for joining: base material and componentgeometry. Selection of joining method and filler material;Adhesive bonding; Soldering; Brazing; Diffusion bonding;Resistance welding; Fusion welding (GTAW, EB, laserand plasma arc); Friction welding; NDE. Emphasis onAerospace materials and applications.Prerequisite(s): AERO 3700 or MECH 3700.Lectures three hours per week.

AERO 4801 [0.5 credit]Spacecraft DesignTypes of spacecraft. Fundamentals of orbital mechanics.The design of spacecraft and spacecraft subsystemswith emphasis on mission requirements and currentdesign methods: spacecraft configuration, payload,structural, propulsion, attitude control, thermal, power,communication and other related subsystems. Spacecraftintegration and testing.Precludes additional credit for AERO 3841.Prerequisite(s): AERO 3002 or MECH 3002.Lectures three hours a week.

16 Engineering

AERO 4802 [0.5 credit]Space Mission Analysis and DesignHistory of space exploration. Review of solar system.Space mission design. Space mission geometry.Space mission analysis:orbit design, orbit transfers andinterplanetary trajectories. Space environment and itseffect on spacecraft design. Space propulsion and launchvehicle design. Launch sequence, launch windows andlaunch cost.Precludes additional credit for AERO 4842, MAAE4906B (1994-2004 inclusive), MECH 5802 (2002-2004inclusive), MECH 5700 Section "L" (1994-1997 inclusive),MECH 5805 (1999-2002 inclusive).Prerequisite(s): AERO 3002 or MECH 3002.Also offered at the graduate level, with differentrequirements, as MECH 5106, for which additional credit isprecluded.

AERO 4842 [0.5 credit]Space Mission DesignSpace mission elements. System view of spacecraft.Requirements definition. Space mission geometry. Orbitselection. Space environment and its effect on spacecraftdesign. Launch vehicle design and selection. Missionoperations. Space systems design examples.Precludes additional credit for AERO 4802.Prerequisite(s): AERO 3841.Lectures three hours a week, tutorials or laboratories onehour per week.

Civil Engineering (CIVE) CoursesDepartment of Civil and EnvironmentalEngineeringFaculty of Engineering and Design

CIVE 2004 [0.5 credit]GIS, Surveying, and GraphicsEngineering geometry and spatial graphics. Structuralengineering drawings and computer aided drafting.Fundamentals of surveying, measuring horizontaland vertical distances and angles. Topographic andconstruction surveys. GPS and electronic surveying.Geographic information systems, data, data structure andprocessing, spatial referencing, cartographic modeling,application software.Lectures three hours a week, problem analysis andlaboratories three hours a week.

CIVE 2005 [0.5 credit]Architectural Technology 2Technical issues involved in architectural designof buildings from ancient times to the present.Technological innovation and materials related to structuraldevelopments, and the organization and design ofstructures. Basic concepts of calculus, equilibrium, andmechanics of materials. Not eligible for use for Bachelor ofEngineering degree requirements.Prerequisite(s): ARCC 2202.Lectures three hours a week, laboratory three hours aweek.

CIVE 2101 [0.5 credit]Mechanics IIPlane trusses. Virtual work. Friction. Relative motion ofparticles. Kinematics of a rigid body: translation, rotation;general plane motion; absolute and relative motion.Kinetics of a rigid body: equations of motion; work-energy;impulse-momentum; conservation of momentum andenergy. Conservative forces and potential energy.Precludes additional credit for MAAE 2101 and ECOR2101.Prerequisite(s): ECOR 1101 and MATH 1004 andMATH 1104.Lectures three hours a week, problem analysis three hoursa week.

CIVE 2200 [0.5 credit]Mechanics of Solids IStress and strain. Stress-strain relationship: Hooke'slaw. Torsion of circular shafts. Bending moment andshear force distribution. Flexural stresses. Deflection.Shear stress in beams. Stresses in thin- walled cylinders.Transformation of 2D stress and strain: Mohr's circle.Buckling of columns.Precludes additional credit for MAAE 2202.Prerequisite(s): ECOR 1101 for B.Eng. students orCIVE 2005 for B.A.S. with Concentration in Conservationand Sustainability.Lectures three hours a week, problem analysis andlaboratory three hours a week.

CIVE 2700 [0.5 credit]Civil Engineering MaterialsIntroduction to material science. Structure of atoms.Crystallography. Crystal Imperfections. Characteristics,behaviour and use of Civil Engineering materials:steel, concrete, asphalt, wood, polymers, composites.Specifications. Physical, chemical and mechanicalproperties. Quality control and material tests. Fatigue.Corrosion. Applications in construction and rehabilitation ofstructures.Prerequisite(s): second year status for students in anEngineering program or second year standing in a B.A.S.major in Conservation and Sustainability.Lectures three hours a week, problem analysis andlaboratory three hours a week.

CIVE 3202 [0.5 credit]Mechanics of Solids IIShear flow. Definition of shear centre, Saint Venantand warping torsional constants. Behaviour, governingdifferential equations and solutions for torsion, beam-columns, lateral torsional buckling of doubly symmetricbeams, axially loaded doubly symmetric, singly symmetricand asymmetric columns. Failure criterion, fatigue andfracture.Precludes additional credit for MAAE 3202.Prerequisite(s): CIVE 2200.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.


CIVE 3203 [0.5 credit]Introduction to Structural AnalysisConcepts and assumptions for structural analysis:framed structures; joints; supports; compatibility andequilibrium; stability and determinacy; generalized forcesand displacements. Principle of Virtual Work: unknownforce calculations; influence lines. Complementary VirtualWork: displacement calculations, indeterminate analysis.Introduction to the Stiffness Method of Analysis.Prerequisite(s): CIVE 2200 and MATH 1004.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3204 [0.5 credit]Introduction to Structural DesignBuilding systems and structural form. Design Philosophyand design process. Limit states design. National BuildingCode of Canada. Determination of dead, live, snow, wind,and earthquake loads.Prerequisite(s): CIVE 2200 (concurrent).Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3205 [0.5 credit]Design of Structural Steel ComponentsIntroduction to CAN/CSA - S16, design and behaviourconcepts; shear lag, block shear, local plate buckling,lateral torsional buckling, instantaneous centre, inelasticstrength and stability. Design of tension members, axiallyloaded columns, beams, beam-columns, simple boltedand welded connections.Prerequisite(s): CIVE 2200. Recommended prerequisite:CIVE 3204.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3206 [0.5 credit]Design of Reinforced Concrete ComponentsIntroduction to CAN/CSA - A23.3; design and behaviourconcepts; flexural analysis at service loads; shear,bond, Whitney stress block, under and over reinforcedbehaviour, ultimate strength. Flexural design of singlyreinforced, doubly reinforced T-beams, and one-wayslabs. Shear design for beams. One-way and two-wayslab building systems, columns.Prerequisite(s): CIVE 2200. Recommended prerequisite:CIVE 3204.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3207 [0.5 credit]Historic Site Recording and AssessmentMethods of heritage documentation including handrecording, photography, rectified photography, totalstation, gps, photogrammetry, and laser scanning. Non-destructive testing techniques; environmental assessmenttools for determining air quality and energy efficiency.Multidisciplinary teams for all project work.Also listed as ARCN 4100.Prerequisite(s): third-year status in B.Eng. in ArchitecturalConservation and Sustainability Engineering or third-yearstanding in B.A.S. Concentration in Conservation andSustainability.Lectures three hours a week, lab or field work two hours aweek.

CIVE 3208 [0.5 credit]Geotechnical MechanicsSoil composition and soil classification. Soil properties,compaction, seepage and permeability. Concepts ofpore water pressure, capillary pressure and hydraulichead. Principle of effective stress, stress-deformationand strength characteristics of soils, consolidation, stressdistribution with soils, and settlement. Laboratory testing.Also listed as ERTH 4107.Prerequisite(s): third-year status in Engineering, orpermission of the department. Additional recommendedbackground: ERTH 2404 or equivalent.Lectures three hours a week, laboratory three hoursalternate weeks.

CIVE 3304 [0.5 credit]Transportation Engineering and PlanningTransportation and the socio-economic environment;modal and intermodal systems and components; vehiclemotion, human factors, system and facility design;traffic flow; capacity analysis; planning methodology;environmental impacts; evaluation methods.Also listed as GEOG 4304.Prerequisite(s): third-year status in Engineering, orpermission of the Department.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 3999 [0.0 credit]Co-operative Work Term

CIVE 4200 [0.5 credit]Matrix Analysis of Framed StructuresReview of basic structural concepts. Betti's law andapplications. Matrix flexibility method, flexibility influencecoefficients. Development of stiffness influencecoefficients. Stiffness method of analysis: beams;plane trusses and frames; space trusses and frames.Introduction to the finite element method.Prerequisite(s): CIVE 3203.Lectures three hours a week, problem analysis three hoursalternate weeks.

18 Engineering

CIVE 4201 [0.5 credit]Finite Element Methods in Civil EngineeringIntroduction to the theory and application of finite elementmethods. The relationship with virtual work, Rayleigh-Ritz, system of linear equations, polynomial interpolation,numerical integration, and theory of elasticity is explored.Isoparametric formulations of structural and planeelements are examined. Geotechnical and nonlinearproblems are introduced.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4202 [0.5 credit]Wood EngineeringStructural design in timber. Properties, anatomy of wood,wood products, factors affecting strength and behaviour,strength evaluation and testing. Design of columns, beamsand beam-columns. Design of trusses, frames, glulamstructures, plywood components, formwork, foundations,connections and connectors. Inspection, maintenance andrepair.Also listed as ARCC 4202.Prerequisite(s): CIVE 2200. Additional recommendedbackground: CIVE 3204.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4208 [0.5 credit]Geotechnical EngineeringStrength of soils, steady state seepage, flownets andpiping. Stress distribution in soils. Earth pressures: atrest, active and passive. Design of flexible and rigidretaining structures. Stability of excavations, slopesand embankments. Settlement of foundations. Bearingcapacity of footings.Prerequisite(s): CIVE 3208.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4209 [0.5 credit]Highway EngineeringHighway planning; highway location and geometric design;traffic engineering; highway capacity; soil classifications;subgrade and base materials; highway drainage; frostaction; structural design of rigid and flexible pavements;highway economics and finance; maintenance andrehabilitation.Prerequisite(s): Fourth year status in engineering.Recommended prerequisites: CIVE 2004, CIVE 3304 andCIVE 3208.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4301 [0.5 credit]Foundation EngineeringA critical study of the theories in soil mechanics and theirapplication to the solution of geotechnical engineeringproblems. Field investigations, laboratory and field testing,shallow foundations, special footings, mat foundations, pilefoundations and excavations. Discussion of new methodsand current research.Prerequisite(s): CIVE 4208.Lectures three hours a week, laboratory three hoursalternate weeks.

CIVE 4302 [0.5 credit]Reinforced and Prestressed Concrete DesignReinforced concrete shear and torsion design. Two-way slab design by Direct Design and Equivalent FrameMethod. Behaviour and design of slender reinforcedconcrete columns. Prestressed concrete concepts; flexuralanalysis and design; shear design; anchorage zonedesign; deflection and prestress loss determination.Prerequisite(s): CIVE 3202, CIVE 3203 and CIVE 3206.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4303 [0.5 credit]Urban PlanningA systematic approach to urban planning; urbansprawl; data collection; forecasting; standards; spacerequirements; land use; zoning; transportation; landdevelopment; site selection; land capability; layout;evaluation; housing; urban renewal and new towns.Also listed as GEOG 4303.Prerequisite(s): third-year status in Engineering, orpermission of the Department.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4307 [0.5 credit]Municipal HydraulicsFluid flow fundamentals. Hydraulics of pipe systems. Openchannel flow. Prediction of sanitary and storm sewage,flow rates. Design of water distribution systems, culverts,sanitary and storm sewers. Pumps and measuringdevices. Hydraulic and flow control structures.Prerequisite(s): MAAE 2300.Lectures three hours a week, problem analysis 1.

CIVE 4308 [0.5 credit]Behaviour and Design of Steel StructuresBehaviour and design of open web steel joists, steel andcomposite decks, composite beams and columns, studgirders, and plate girders. Design of moment connections,base plates and anchor bolts, and bracing connections.Stability of rigid and braced frames. Design for lateral loadeffects.Prerequisite(s): CIVE 3205 and fourth-year status inEngineering.Lectures three hours a week, problem analysis three hoursalternate weeks.


CIVE 4400 [0.5 credit]Construction/Project ManagementSystems approach to project planning and control.Analysis of alternative network planning methods: CPM,precedence and PERT; planning procedure; computertechniques and estimating; physical, economic andfinancial feasibility; implementation feedback and control;case studies.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4403 [0.5 credit]Masonry DesignIntroduction to structural design in masonry. Propertiesof masonry materials and assemblages. Behaviour anddesign of beams, walls and columns. Selected topicsincluding veneer wall systems, differential movement,workmanship, specifications, inspection, maintenance andrepair. Lowrise and highrise building design.Prerequisite(s): CIVE 3204, CIVE 3206 and fourth-yearstatus in Engineering or permission of the Department.Also offered at the graduate level, with differentrequirements, as CIVE 5200, for which additional credit isprecluded.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4407 [0.5 credit]Municipal EngineeringIntroduction to fundamentals of municipal engineering.Water quality: physical, chemical and biologicalparameters. Water treatment: softening mixing,flocculation, sedimentation, filtration, disinfection,fluoridation. Biological processes. Wastewater treatment:primary, secondary and tertiary treatment. Sludge disposaland wastewater reuse. Solid waste management.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, problem analysis 1.

CIVE 4500 [0.5 credit]Computer Methods in Civil EngineeringAdvanced software development for Civil Engineeringapplications. Examples may be chosen from surveying,transportation, geotechnical and/or structural engineering.Software technologies include object-orientedprogramming, data base management, Internet-basedapplications and graphical user interfaces.Prerequisite(s): ECOR 2606 and fourth-year status inEngineering.Also offered at the graduate level, with differentrequirements, as CIVE 5602, for which additional credit isprecluded.Lectures three hours a week, problem analysis three hoursalternate weeks.

CIVE 4601 [0.5 credit]Building Pathology and RehabilitationDeterioration mechanisms for concrete, timber, steel andmasonry structures. Identification of design deficiencies;criteria for selection and design of rehabilitation systems.Design techniques to reduce deterioration in newconstruction and historical structures. fourth-year standingin B.A.S. concentration in Conservation and Sustainability.Also listed as ARCN 4200.Prerequisite(s): fourth-year status in B.Eng. inArchitectural Conservation and Sustainability Engineeringor fourth-year standing in B.A.S. concentration inConservation and Sustainability.Lectures three hours a week, lab/field work two hours aweek.

CIVE 4614 [0.5 credit]Building Fire SafetyUnderstanding fire-structure interaction and theconcepts of fire severity and resistance; behaviour ofsteel, concrete, and timber buildings exposed to fires;compartment fire dynamics; correlations and computermodels to predict fire dynamics; fire retardants; laboratory-scale fire experiments; performance-based approach forbuilding fire safety design.Prerequisite(s): fourth-year status in Engineering, orpermission of the Department.Lectures three hours a week, problem analysis andlaboratories one and one-half hours per week.

CIVE 4907 [1.0 credit]Engineering ProjectA major project in engineering analysis, design,development or research carried out by individual studentsor small teams, for an opportunity to develop initiative,self-reliance, creative ability and engineering judgmentand is intended for students with high CGPAs and aninterest in graduate studies.Prerequisite(s): fourth-year status in Engineering andpermission of the department.

CIVE 4918 [1.0 credit]Design ProjectTeams of students develop professional level experiencethrough a design project that incorporates fundamentalsacquired in previous mathematics, science, engineering,and complementary studies courses. A final report andoral presentations are required.Prerequisite(s): fourth-year status in Engineering.Lectures two hours alternate weeks, problem analysisthree hours a week.

Electronics (ELEC) CoursesDepartment of ElectronicsFaculty of Engineering and Design

20 Engineering

ELEC 1908 [0.5 credit]First Year ProjectA practical introduction to engineering design. Studentswork in small teams to specify, design and implementa system, formally managing the project progress andsubmitting oral and written reports. Professionalism:engineering ethics; health and safety. Technology, societyand the environment.Prerequisite(s): registration in the Engineering Physicsprogram.Lectures and tutorials three hours a week, laboratory fourhours a week.

ELEC 2501 [0.5 credit]Circuits and SignalsProperties of signals. Basic circuit elements: voltage andcurrent sources. Kirchhoff's laws, linearity, superposition.Thevenin and Norton's theorems. Circuit simplification. ACsteady-state analysis: impedance, admittance, phasors,frequency response. Transient response of RL and RCcircuits: form of response, initial and final conditions. RLCcircuits: resonance.Precludes additional credit for PLT 2005.Prerequisite(s): MATH 1005 and (PHYS 1004 orPHYS 1002).Lectures three hours a week, laboratory and problemanalysis three hours a week.

ELEC 2507 [0.5 credit]Electronics IQualitative semiconductor physics, leading to the diodeequation. Diode applications. Operational amplifiers andtheir application in feedback configurations including activefilters. Introduction to bipolar transistors and MOSFETs,analysis of biasing circuits. Transistor applicationsincluding small signal amplifiers.Precludes additional credit for PLT 2006.Prerequisite(s): ELEC 2501.Lectures three hours a week, laboratory and problemanalysis three hours a week.

ELEC 2607 [0.5 credit]Switching CircuitsBoolean algebra, gate, combinatorial circuits. DeMorgannotation, sum-of-product and product-of-sum forms. Logicarrays, PLAs and PALs. Flip-flops, latches, sequentialcircuits, state graphs and state minimization. Counters andcontrollers. Hazards. Asynchronous sequential circuits,race free assignment, realization.Precludes additional credit for SYSC 2607/SYSC 3607 orELEC 3607.Prerequisite(s): PHYS 1004 or PHYS 1002.Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 3105 [0.5 credit]Basic EM and Power EngineeringElectrostatics and magnetostatics. Solution of Poisson'sand Laplace's equations. The Lorenz equation and force.Time varying fields. Magnetic circuits and transformers.DC and AC machines. Basic three-phase power.Precludes additional credit for PLT 3003.Prerequisite(s): MATH 2004 and (PHYS 1004 orPHYS 1002).Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 3500 [0.5 credit]Digital ElectronicsDigital circuit design using verilog and logic synthesis, theelectronic properties of logic gates, electrical interfacingbetween logic families, asynchronous to synchronousinterfacing, clock distribution and timing, VLSI designoptions. Students implement substantial circuits with field-programmable gate arrays.Prerequisite(s): ELEC 2507 and ELEC 2607.Lectures three hours a week, laboratory three hours aweek.

ELEC 3508 [0.5 credit]Power ElectronicsPower transformers. DC and AC motors. Powersemiconductor devices: Thyristors, Triacs, MCTs,IGBTs). Converter circuits: controlled AC to DC rectifiers,choppers, DC to AC inverters, AC voltage controllers,cycloconverters. Protection of conversion circuits.Applications to high-efficiency control of electric machinesand electromechanical energy conversion devices.Prerequisite(s): ELEC 2501 and ELEC 2507.Lectures three hours per week, laboratories/problemanalysis three hours per week.

ELEC 3509 [0.5 credit]Electronics IIIntroduction to semiconductor devices and ICs. DC,AC and switching properties of BJTs. Linear amplifiers;bandwidth considerations; two-port analysis. Large signalamplifiers; power amplifiers; transformerless circuits.Feedback and operational amplifiers; gain, sensitivity,distortion and stability. Filter design. Oscillators.Prerequisite(s): ELEC 2507.Lectures three hours a week, laboratory three hours aweek.

ELEC 3605 [0.5 credit]Electrical EngineeringDC circuits: elements, sources, analysis. Single phase ACcircuits: phasors, RLC circuits, real and reactive power,impedance, network analysis, three phase systems. Powertransformers. DC motors: operation and characteristics.AC motors: single phase and three phase.Precludes additional credit for ELEC 2501.Prerequisite(s): MATH 1005 and (PHYS 1004 orPHYS 1002).Lectures three hours a week, problem analysis 1.5 hours aweek.


ELEC 3907 [0.5 credit]Engineering ProjectStudent teams work on open-ended projects basedon previously acquired knowledge. Lectures aredevoted to discussing project-related issues and studentpresentations. A project proposal, a series of projectreports, and oral presentations, and a comprehensive finalreport are required.Prerequisite(s): ELEC 2607, ELEC 2507, and ECOR 2606,and enrolment in the Electrical Engineering program.Lecture two hours per week, laboratory six hours perweek.

ELEC 3908 [0.5 credit]Physical ElectronicsFundamentals of device physics and operation of the pnjunction, bipolar transistor and MOSFET. Basic integratedcircuit processing and application to diodes, BJTs andMOSFETs. Correlation between processing, structure,operation and modeling. Consideration of parasitic andsmall-geometry effects, reliability and process variation.Precludes additional credit for ELEC 4705.Prerequisite(s): ELEC 2507.Lectures three hours a week, problem analysis two hoursa week.

ELEC 3909 [0.5 credit]Electromagnetic WavesMaxwell's equations and EM wave solutions. Polarization.Poyntingvector. EM waves in dielectrics and conductors;skin depth. Reflection and refraction. Standing waves.Fresnel relations, Brewster angle. Transmission lines.Line termination, basic impedance matching andtransformation. Smith charts. Introduction to guidedwaves; slab waveguide.Precludes additional credit for PHYS 3308.Prerequisite(s): ELEC 3105 or permission of theDepartment.Lectures three hours a week, problem analysis three hoursalternate weeks.

ELEC 3999 [0.0 credit]Co-operative Work Term

ELEC 4502 [0.5 credit]Microwave CircuitsIntroduction to microwave semiconductor devices,microwave passive components, microwave integratedcircuit technology, and microwave circuit measurements.Basic network theory and scattering matrix description ofcircuits. Design of matching networks, filters, amplifiersand oscillators at microwave frequencies.Prerequisite(s): ELEC 4503; may be taken concurrently.Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 4503 [0.5 credit]Radio Frequency Lines and AntennasIntroduction to distributed circuits, travelling andstanding waves, reflection coefficient, SWR, impedancetransformation, Smith charts. Introduction to transmissionlines; coaxial, rectangular waveguide, resonators, opticalfibers. Introduction to antennas; gain, directivity, effectivearea. Introduction to linear arrays.Prerequisite(s): ELEC 3909.Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 4504 [0.5 credit]Avionics SystemsElectromagnetic spectrum. Air data sensing, display.Communications systems. Navigation and landingsystems; ground-based, inertial and satellite systems.Airborne radar. Guidance, control for aircraft,autopilots; stability augmentation; active control; sensorrequirements; display techniques. Aircraft power systems.Safety systems. Vehicle/systems integration, certification.Precludes additional credit for AERO 4504.Prerequisite(s): fourth-year status in Engineering. Notopen to students in Electrical Engineering, ComputerSystems Engineering, Aerospace Stream C Engineering,Engineering Physics or Communications Engineering.Lecture three hours a week.

ELEC 4505 [0.5 credit]Telecommunication CircuitsA course of study of the commonly used circuitcomponents in modern telecommunication systems. Bothanalog and digital systems are included. The design ofthe hardware is emphasized. Examples are drawn frombroadcasting, telephony and satellite systems.Prerequisite(s): ELEC 3509 and (SYSC 3501 orSYSC 3503).Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 4506 [0.5 credit]CAD for Communication CircuitsBasic principles of Computer-Aided Design tools usedfor analysis and design of communication circuits andsystems. Frequency and time-domain analysis. Noise anddistortion analysis. Transmission line effects. Sensitivityanalysis, and circuit performance optimization. Digitalsimulation.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, laboratory three hoursalternate weeks.

22 Engineering

ELEC 4509 [0.5 credit]Communication LinksFundamentals; decibel, intermodulation, 1dB compression,dynamic range, SNR, noise figure, noise temperature,antenna gain, EIRP, G/T. Line-of-sight links; receiver,diversity, fade margin. Satellite links; link calculations,multiple accessing, earth stations. Fiber links, fiber types,sources, detectors, systems.Prerequisite(s): fourth-year status in Engineering orpermission of the Department.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4600 [0.5 credit]Radar and NavigationRadar: operation, minimum detectable signal, propagationeffects. Surveillance Radars: Moving Target indicatorand Pulse Doppler operation. Radio Navigation: pulsedand CW operation. Operational systems: Loran C.,VOR/DME, TACAN, Global Positioning system. InertialNavigation. Navigation Co-ordinate Systems. Techniquesfor determining best estimates of position.Prerequisite(s): fourth-year status in Engineering orpermission of the Department.Lectures three hours a week.

ELEC 4601 [0.5 credit]Microprocessor SystemsInterfacing aspects in microprocessor systems.Microprocessors and bus structures, internal architecture,instruction set and pin functions. Memory interfacing,input-output, interrupts, direct memory accesses, specialprocessors and multiprocessor systems.Precludes additional credit for SYSC 3601 and COMP3006.Prerequisite(s): ELEC 2607 and one of SYSC 2003or SYSC 3003 or SYSC 3006 or permission of theDepartment.Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 4602 [0.5 credit]Electrical Power EngineeringThe electric power system. Major components: inductionand synchronous machines, power transformersand connections, transmission. Analysis: balancedand unbalanced three-phase systems, symmetricalcomponents, load flow. Operation: frequency control,steady state and transient generator stability, voltagecollapse, thermal constraints. Variable speed drives,power quality.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, problem analysis two hoursevery week.

ELEC 4609 [0.5 credit]Integrated Circuit Design and FabricationIntroduction to nMOS IC design: static logic gates, noisemargin, transmission gates, factors influencing switchingspeed, dynamic logic, input protection, output buffers,circuit simulation with SPICE. Laboratory work includesdesign and layout of a simple nMOS IC that is fabricatedand returned for testing.Prerequisite(s): ELEC 3500 or ELEC 3908.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4700 [0.5 credit]The Physics and Modeling of Advanced Devices andTechnologiesFabrication, operation and modeling of advanced devicesfor information technology. Topics: physics of materials,quantum mechanics of solids, optical transitions, physicalanalysis and models for state-of-the-art electronic/opticaltechnologies and materials. Technologies: MOS and III-Vbased transistors, solid-state optical devices, MEMS andnano-technology based devices.Prerequisite(s): ELEC 3908.Lectures three hours a week, problem analysis two hoursalternate weeks.

ELEC 4702 [0.5 credit]Fiber Optic CommunicationsFundamentals of optoelectronics with application to fiberoptic communications. Optical fibre: modes, losses,dispersion, splices and coupling to sources. Opticalsources: LEDs and laser diodes. Optical detectors:photoconductor, pin and avalanche photodiodes. Opticalreceiver design. Fiber optic communications systems:intensity modulation/direct detection; coherent homodyneor heterodyne detection.Prerequisite(s): ELEC 3908 and ELEC 3909.Lectures three hours a week, laboratory three hoursalternate weeks.

ELEC 4703 [0.5 credit]Solar CellsSemiconductor band structure, photogeneration, thesolar spectrum. Detailed analysis of monocrystallinesilicon solar cells. Solar cells based on thin film materials:amorphous silicon, III-V materials, organics, titania-dyecells. Cells for concentrator systems. Photovoltaic powersystems. Solar cells for building envelopes.Prerequisite(s): ELEC 2501 and ELEC 2507 and fourth-year status in Sustainable and Renewable EnergyEngineering, or ELEC 2501 and ELEC 2507 and fourth-year status in Engineering with permission of theinstructor.Lectures three hours per week, laboratories/problemanalysis three hours alternate weeks.


ELEC 4704 [0.5 credit]Nanoscale Technology and DevicesEngineering at the nanoscale. Quantum confinementand the effect of scale. Analysis tools: microscopy,spectroscopy. Fabrication: thin films, nanoparticles,nanotubes, graphene, organics. Structures and properties:quantum wells, nanocrystals, nanostructuring. Applicationsand devices: electronics, optoelectronics, photonics.Prerequisite(s): ELEC 3908.Lectures three hours a week, problem analysis 1.5 hours aweek.

ELEC 4705 [0.5 credit]Electronic Materials, Devices and Transmission MediaReview of solid-state theory, conductors, semiconductors,superconductors, insulators, and optical and magneticproperties. Devices used in modern high speedelectronic and communication systems: transistors,lasers, photodiodes, fiber optics, Josephson junctions.Implications of material properties on fabrication andoperation of devices and circuits.Precludes additional credit for ELEC 3908.Prerequisite(s): fourth-year status in Engineering. Notavailable for credit to students in Electrical Engineering orEngineering Physics.Lectures three hours a week.

ELEC 4706 [0.5 credit]Digital Integrated ElectronicsLectures and hands-on experience introduce advancedconcepts in digital interfacing and hardware simulation.Industry standard programmable ASIC design tools,interfacing techniques and System on a Chip areintroduced along with hardware modeling and design flow.A modern laboratory includes software and hardwaredigital design tools.Prerequisite(s): ELEC 3500.Lectures two hours a week, laboratory three hours a week.

ELEC 4707 [0.5 credit]Analog Integrated ElectronicsEmphasis on integration of analog signal processingtechniques in monolithic IC technology. Continuous activefilter design. MOS IC technology. OP amp design. Basicsampled data concepts; Z-transform analysis, switchedcapacitor filters. Noise aspects. Bipolar technology: radiofrequency IC design.Prerequisite(s): ELEC 3509.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4708 [0.5 credit]Advanced Digital Integrated Circuit DesignAdvanced Verilog, test benches. VLSI design based onCMOS technology, characteristics of CMOS logic circuits,cell libraries, building blocks, structured design, testing,Computer-Aided Design tools. Laboratory emphasis ondesign synthesis from Verilog.Prerequisite(s): fourth-year status in Engineering andELEC 3500) or permission of the department.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4709 [0.5 credit]Integrated SensorsOverview of sensor technologies with emphasis ondevices suitable for integration with silicon integratedcircuits. Sensor design and fabrication principles includingsignal conditioning; discussion of automotive, biomedical,and other instrumentation applications.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4906 [0.5 credit]Special TopicsAt the discretion of the Engineering Faculty Board, acourse dealing with selected advanced topics of interestto students in Biomedical and Electrical, Communications,Computer Systems, Electrical and Software Engineeringand Engineering Physics may be offered.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week, laboratory and problemanalysis three hours alternate weeks.

ELEC 4907 [1.0 credit]Engineering ProjectStudent teams develop professional-level experience byapplying, honing, integrating, and extending previouslyacquired knowledge in a major design project. Lecturesare devoted to discussing project-related issues andstudent presentations. A project proposal, interim report,oral presentations, and a comprehensive final report arerequired.Prerequisite(s): ELEC 3907, ECOR 4995 (may be takenconcurrently) and fourth-year status in Engineering.Lecture one hour a week, laboratory seven hours a week.

ELEC 4908 [1.0 credit]Engineering Physics ProjectStudent teams develop professional-level experience byapplying, honing, integrating, and extending previouslyacquired knowledge in a major design project approvedfor Engineering Physics. Lectures devoted to discussingproject-related issues and student presentations. Aproject proposal, interim report, oral presentations, andcomprehensive final report are required.Prerequisite(s): fourth-year status in Engineering andECOR 4995 (may be taken concurrently). Certain projectsmay have additional prerequisites or corequisites.Lecture one hour a week, laboratory seven hours a week.

Engineering Core (ECOR) CoursesDepartment of Mechanical and AerospaceEngineeringFaculty of Engineering and Design

24 Engineering

ECOR 1010 [0.5 credit]Introduction to EngineeringTechnology, society and the environment. Graphicaldesign communication: sketching, graphical projections;CAD. Managing data: statistical methods; spreadsheets.Design analysis: matrix programming software; symboliccomputer algebra systems. Design process: proposals;reports; presentations; reporting software.Precludes additional credit for ECOR 1000.Lectures four hours per week, laboratories two hours perweek.

ECOR 1101 [0.5 credit]Mechanics IIntroduction to mechanics. Scalars and vectors.Concurrent forces: resultant and components. Statics ofparticles. Moments and couples. Force system resultants.Rigid body equilibrium. Frames and machines. Internalforces. Kinematics and kinetics of particles. Conservationtheorems: work-energy; impulse-momentum. Centroidsand centres of gravity.Prerequisite(s): MATH 1004 and MATH 1104.Lectures three hours a week, tutorials and problemanalysis three hours a week.

ECOR 1606 [0.5 credit]Problem Solving and ComputersIntroduction to engineering problem solving. Definingand modeling problems, designing algorithmic solutions,using procedural programming, selection and iterationconstructs, functions, arrays, converting algorithmsto a program, testing and debugging. Program style,documentation, reliability. Applications to engineeringproblems; may include numerical methods, sorting andsearching.Precludes additional credit for SYSC 1100, SYSC 1102,COMP 1005 and COMP 1405.Lectures three hours a week, laboratory three hours aweek.

ECOR 2606 [0.5 credit]Numerical MethodsNumerical algorithms and tools for engineering andproblem solving. Sources of error and error propagation,solution of systems of linear equations, curve fitting,polynomial interpolation and splines, numericaldifferentiation and integration, root finding, solution ofdifferential equations. Software tools.Precludes additional credit for SYSC 2606.Prerequisite(s): MATH 1005 and (ECOR 1606 orSYSC 1005) and (ECOR 1010 or ELEC 1908).Lectures three hours a week, laboratory 1.

ECOR 3800 [0.5 credit]Engineering EconomicsIntroduction to engineering economics; cash flowcalculations; methods of comparison of alternatives;structural analysis; replacement analysis; public projects;depreciation and income tax; effects of inflation; sensitivityanalysis; break-even analysis; decision making under riskand uncertainty.Prerequisite(s): third-year status in Engineering.Lectures three hours a week.

ECOR 4995 [0.5 credit]Professional PracticePresentations by faculty and external lecturers on theProfessional Engineers Act, professional ethics andresponsibilities, practice within the discipline and itsrelationship with other disciplines and to society, healthand safety, environmental stewardship, principles andpractice of sustainable development. Communication skillsare emphasized.Precludes additional credit for MAAE 4905, CIVE 4905,SYSC 3905 or ELEC 3905.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week.

Environmental Engineering (ENVE) CoursesDepartment of Civil and EnvironmentalEngineeringFaculty of Engineering and Design

ENVE 1001 [0.5 credit]Architecture and the EnvironmentImpacts of the environment on architecture; deterioration,freeze/thaw, solar heat, air pollution, moisture; Impacts ofarchitecture on the environment; ecologic footprint, energyconsumption, air quality, waste generation; designing withthe environment; renewable energy, effective siting andlandscape, passive solar energy, natural lighting, energyefficiency.Lectures three hours a week.

ENVE 2001 [0.5 credit]Process Analysis for Environmental EngineeringMaterial and energy balances for reacting and non-reacting systems. Applications in mining, metallurgy, pulpand paper, power generation, energy utilization. Emissionsto the environment per unit product or service generated.Introduction to life cycle analysis, comparative productsand processes.Prerequisite(s): CHEM 1002 or CHEM 1101 or equivalent,and MAAE 2400 (may be taken concurrently).Lectures two hours a week, problem analysis three hoursa week.


ENVE 2002 [0.5 credit]MicrobiologyThe biology of the Bacteria, Archaea, Viruses andProtozoans, from the fundamentals of cell chemistry,molecular biology, structure and function, to theirinvolvement in ecological and industrial processes andhuman disease.Also listed as BIOL 2303.Precludes additional credit for BIOL 3301.Prerequisite(s): BIOL 1003 or CHEM 1002 or CHEM 1101or equivalent.Lectures three hours a week.

ENVE 3001 [0.5 credit]Water Treatment Principles and DesignTheoretical aspects of unit operations for watertreatment with design applications. Topics includewater characteristics and contaminants, coagulation,flocculation, sedimentation, filtration, adsorption, ionexchange, membrane processes, disinfection anddisinfection by-products, and management of watertreatment residuals. Laboratory procedures: settlingoperations, filtration, aeration, and adsorption.Prerequisite(s): ENVE 3002.Lectures three hours a week, problem analysis one hour aweek, laboratory three hours alternate weeks.

ENVE 3002 [0.5 credit]Environmental Engineering Systems ModelingEngineered systems for pollution abatement; chemicalreaction engineering; reaction kinetics and rate dataanalysis; design and modeling of reactors; single andmultiple reactions; ideal and nonideal reactors; single andmulti-parameter models; biochemical reaction engineering;process control. Laboratory procedures: reactor systemsperformance: Batch, CSTR and PFR.Prerequisite(s): CHEM 1002 or CHEM 1101 or equivalentand MATH 2004. Additional recommended background:ENVE 2001.Lectures three hours a week, problem analysis one hour aweek, laboratory three hours alternate weeks.

ENVE 3003 [0.5 credit]Water Resources EngineeringA quantitative analysis of natural water systems andthe development of these systems as a resource.Components of the hydrologic cycle. Quantitative analysisof stream flow. Probability concepts in water resources.Reservoir design and operation. Hydraulic properties andavailability of groundwater. Storm water management.Prerequisite(s): recommended background: MAAE 2300.Lectures three hours a week, problem analysis one hour aweek.

ENVE 3004 [0.5 credit]Contaminant and Pollutant Transport in theEnvironmentPhysical phenomenon governing the transport ofcontaminants in the environment: diffusion, advection,dispersion, sorption, interphase transfer. Derivation andapplication of transport equations in air, surface andgroundwater pollution; analytical and numerical solutions.Equilibrium partitioning of contaminants among air, water,sediment, and biota.Prerequisite(s): CHEM 1002 or CHEM 1101 or equivalent;ENVE 3002.Lectures three hours a week, problem analysis one hour aweek.

ENVE 3909 [0.5 credit]Work Term 3

ENVE 3999 [0.0 credit]Co-operative Work Term

ENVE 4002 [0.5 credit]Environmental Geotechnical EngineeringLandfill design; hydrogeologic principles, water budget,landfill liners, geosynthetics, landfill covers, qualitycontrol/quality assurance, clay leachate interaction,composite liner design and leak detection. Landfilloperation, maintenance and monitoring. Case studies oflandfill design and performance. Geotechnical design ofenvironmental control and containment systems.Prerequisite(s): ENVE 3004, CIVE 3208.Also offered at the graduate level, with differentrequirements, as ENVE 5201/EVG 7201, for whichadditional credit is precluded.Lectures three hours a week, problem analysis one hour aweek.

ENVE 4003 [0.5 credit]Air Pollution and Emissions ControlAir pollutants, classification, sources, and effects. Ambientair quality objectives and monitoring. Pollutant formationmechanisms in combustion. Major pollutant categories andcontrol methods. Indoor air quality. Laboratory procedures:emissions from boilers and IC engines, particulate sizedistribution and control, IAQ parameters.Prerequisite(s): ENVE 2001 and fourth-year status inEngineering or permission of the department.Also offered at the graduate level, with differentrequirements, as ENVE 5101/EVG 5101, for whichadditional credit is precluded.Lectures three hours a week, problem analysis one hour aweek, laboratory three hours alternate weeks.

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ENVE 4005 [0.5 credit]Wastewater Treatment Principles and DesignTheoretical aspects of unit operations and processes forwastewater treatment with design applications. Topicsinclude wastewater characteristics, flow rates, primarytreatment, chemical unit processes, biological treatmentprocesses, advanced wastewater treatment, disinfection,and biosolids treatment and disposal. Laboratoryprocedures: activated sludge, anaerobic growth, chemicalprecipitation, disinfection.Prerequisite(s): BIOL 1003 or ENVE 2002, ENVE 3001,ENVE 3002.Lectures three hours a week, problem analysis one hour aweek, laboratory three hours alternate weeks.

ENVE 4006 [0.5 credit]Contaminant HydrogeologyTheory of flow through porous media. Site investigation:geology, hydrology and chemistry. Contaminant transport.Unsaturated and multiphase flow. Numerical modeling.Site remediation and remediation technologies.Prerequisite(s): ENVE 3004 and MAAE 2300. Additionalrecommended background: ENVE 3003.Also offered at the graduate level, with differentrequirements, as ENVE 5301/EVG 7301, for whichadditional credit is precluded.Lectures three hours a week, problem analysis three hoursalternate weeks.

ENVE 4101 [0.5 credit]Waste ManagementMunicipal, hazardous, and mine waste management.Waste composition and potential impacts, collection andtransport, recycling and reuse, biological and thermaltreatments, isolation. Integrated waste managementplanning.Prerequisite(s): ENVE 3001, ENVE 3002 and ENVE 3004.Also offered at the graduate level, with differentrequirements, as ENVE 5203/EVG 5203, for whichadditional credit is precluded.Lectures three hours a week, problem analysis one hour aweek.

ENVE 4104 [0.5 credit]Environmental Planning and Impact AssessmentCanada and U.S. environmental regulations. Frameworkfor Environmental Impact Assessment, survey techniquesfor impact assessment and EIA review process. Casestudies of selected engineering projects. Environmentalplanning, management of residuals and environmentalstandards. Risk assessment, policy development anddecision-making. Fault-tree analysis.Prerequisite(s): ENVE 3004 and fourth-year status inEngineering.Lectures three hours a week, problem analysis three hoursalternate weeks.

ENVE 4105 [0.5 credit]Green Building DesignConcepts, calculations, modeling; design of greenbuildings and their components; sustainable sites andlandscaping; passive design; building envelope; buildingmaterials; daylighting; heating, cooling, and ventilation;building-integrated renewable energy systems; indoorenvironmental quality; overview of building standards andcodes.Prerequisite(s): fourth-year status in B.Eng. ArchitecturalConservation and Sustainability Engineering,Environmental Engineering or Civil Engineering or fourth-year standing in B.A.S. concentration in Conservation andSustainability.Lectures three hours a week, problem analysis one hourper week.

ENVE 4106 [0.5 credit]Indoor Environmental QualityIndoor environmental quality (air quality, thermal, visual,and acoustic comfort); physical and chemical parametersfor characterization. Types and sources of indoor airpollution and discomfort; measurement techniques.Heating, ventilation, air conditioning, lighting practices andissues. Modelling of and design for indoor environmentalquality.Prerequisite(s): fourth year status in B.Eng. ArchitecturalConservation and Sustainability Engineering or B.Eng.Environmental Engineering or fourth year standing inB.A.S. concentration in Conservation and Sustainability.Also offered at the graduate level, with differentrequirements, as ENVE 5104, for which additional credit isprecluded.Lectures three hours a week, problem analysis andlaboratory three hours alternate weeks.

ENVE 4907 [1.0 credit]Engineering ProjectA major project in engineering analysis, design,development or research carried out by individual studentsor small teams, for an opportunity to develop initiative,self-reliance, creative ability and engineering judgmentand is intended for students with high CGPAs and aninterest in graduate studies.Prerequisite(s): fourth-year status in Engineering andpermission of the department.

ENVE 4918 [1.0 credit]Design ProjectTeams of students develop professional level experiencethrough a design project that incorporates fundamentalsacquired in previous mathematics, science, engineering,and complementary studies courses. A final report andoral presentations are required.Prerequisite(s): fourth-year Status in Engineering.Lectures two hours alternate weeks, problem analysisthree hours a week.


Mechanical Engineering (MECH) CoursesDepartment of Mechanical and AerospaceEngineeringFaculty of Engineering and Design

MECH 3002 [0.5 credit]Machine Design and PracticeThe design of mechanical machine elements is studiedfrom theoretical and practical points of view. Topicscovered include: design factors, fatigue, and discretemachine elements. Problem analysis emphasizes theapplication to practical mechanical engineering problems.Prerequisite(s): MAAE 2001 and MAAE 3202.Lectures three hours a week, problem analysis three hoursa week.

MECH 3310 [0.5 credit]Biofluid MechanicsApplications of fundamental fluid mechanics to humancirculatory and respiratory systems. Basic viscous flowtheory including: blood flow in the heart and large arteries,air flow in extra-thoracic (nose-mouth throat) airways andlungs.Prerequisite(s): MATH 2004 and MAAE 2300.Lectures three hours per week, laboratories or tutorialsthree hours per week.

MECH 3700 [0.5 credit]Principles of ManufacturingManufacturing processes, materials. Casting: solidificationand heat flow theory, defect formation, casting design.Metal forming: elementary plasticity theory, plasticfailure criteria, force and work calculations. Bulk andsheet forming. Joining: heat flow and defect formationtheory, residual stresses. Machining theory and methods.Hardening: diffusion, wear resistance.Prerequisite(s): MAAE 2700.Lectures three hours a week, problem analysis andlaboratories one hour a week.

MECH 3710 [0.5 credit]BiomaterialsMaterials used in biomedical applications: metals,polymers, ceramics and composites. Material responseand degradation. Properties of biologic materials;bone, cartilage, soft tissue. Materials selection forbiocompatibility.Prerequisite(s): MAAE 2700.Lectures three hours per week, laboratories and problemanalysis three hours per week.

MECH 4003 [0.5 credit]Mechanical Systems DesignDesign of mechanical systems: establishing designcriteria, conceptual design, design economics, valueanalysis, synthesis and optimization. Mechanicalelements/systems: gear and flexible drive systems, fluidpower systems. These elements are utilized in groupdesign projects.Prerequisite(s): MECH 3002.Lectures three hours a week, problem analysis three hoursa week.

MECH 4006 [0.5 credit]Vehicle Engineering IThe course emphasizes the engineering and designprinciples of road transport vehicles. Topics to be coveredinclude: performance characteristics, handling behaviourand ride quality of road vehicles.Prerequisite(s): MAAE 2101, MAAE 3004 (Dynamics ofMachinery) and third- or fourth-year status in Engineering.Lectures three hours a week.

MECH 4007 [0.5 credit]Vehicle Engineering IIEngineering and design principles of off-road vehiclesand air cushion technology. Topics include: mechanics ofvehicle-terrain interaction - terramechanics, performancecharacteristics of off-road vehicles, steering of trackedvehicles, air cushion systems and their performance,applications of air cushion technology to transportation.Prerequisite(s): MAAE 2101, MAAE 3004 (Dynamics ofMachinery) and third-or fourth-year status in Engineering.Lectures three hours a week.

MECH 4013 [0.5 credit]Biomedical Device DesignMedical Devices: the industry and its regulation. Designmethodologies. Examination of specific medical devices:surgical equipment, orthopedic devices, rehabilitationengineering, life support, artificial organs. Case studies.Prerequisite(s): MECH 4210.Lectures three hours per week, laboratories or tutorialthree hours per week.

MECH 4101 [0.5 credit]Mechanics of Deformable SolidsCourse extends the student's ability in design andstress analysis. Topics include: introductory continuummechanics, theory of elasticity, stress function approach,Lamé and Mitchell problems, stress concentrations,thermoelasticity and plasticity.Prerequisite(s): MAAE 3202.Lectures three hours a week.

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MECH 4103 [0.5 credit]Fatigue and Fracture AnalysisElastic and elasto-plastic fracture mechanics. Fatiguedesign methods, fatigue crack initiation and growth Parislaw and strain-life methods. Fatigue testing, scatter, meanstress effects and notches. Welded and built up structures,real load histories and corrosion fatigue. Damage tolerantdesign and fracture control plans.Prerequisite(s): MAAE 3202.Lectures three hours a week.

MECH 4104 [0.5 credit]Vibration AnalysisFree and forced vibrations of one and two degree-of-freedom systems. Vibration measurement and isolation.Numerical methods for multi-degree-of-freedom systems.Modal analysis techniques. Dynamic vibration absorbers.Shaft whirling. Vibration of continuous systems: bars,plates, beams and shafts. Energy methods. Holzermethod.Prerequisite(s): MAAE 3004.Lectures three hours per week.

MECH 4210 [0.5 credit]BiomechanicsThe biomechanics of biological systems; muscles andmovement, nerves and motor control. Measurementsof motion, strain and neural signals. The hand andmanipulation; locomotion and the leg.Prerequisite(s): MAAE 3202 and MECH 3710. Additionalrecommended background: MECH 3310.Lectures three hours per week, laboratories or tutorialsthree hours per week.

MECH 4305 [0.5 credit]Fluid MachineryTypes of machines. Similarity: performance parameters;characteristics; cavitation. Velocity triangles. Eulerequation: impulse and reaction. Radial pumps andcompressors: analysis, design and operation. Axial pumpsand compressors: cascade and blade-element methods;staging; off-design performance; stall and surge. Axialturbines. Current design practice.Prerequisite(s): MAAE 3300.Lectures three hours a week.

MECH 4401 [0.5 credit]Power Plant AnalysisCriteria of merit; selection of power plant for transportationand power generation applications; interrelation amongmechanical, thermodynamic and aerodynamic designprocesses; jet propulsion, turbojets and turbofans;alternative proposals for vehicular power plant; combinedcycle applications.Precludes additional credit for Engineering AERO 4402.Prerequisite(s): MAAE 2400.Lectures three hours a week.

MECH 4403 [0.5 credit]Power Generation SystemsEnergy sources and resources. Basic elements of powergeneration. Hydro-electric, fossil-fuel and fissile-fuel powerplants. Other methods of conversion. Future methods ofconversion. Economic and environmental considerations.Power generation systems. Future power needs.Prerequisite(s): MAAE 2400.Lectures three hours a week.

MECH 4406 [0.5 credit]Heat TransferMechanisms of heat transfer: fundamentals and solutions.Steady and transient conduction: solution and numericaland electrical analog techniques. Convective heat transfer:free and forced convection for laminar and turbulentflows; heat exchangers. Heat transfer between black andgrey surfaces, radiation shields, gas radiation, radiationinterchange.Precludes additional credit for AERO 4446.Prerequisite(s): MAAE 2400, MAAE 3300 or MECH 3310,or ENVE 3001 and permission of the Department ofMechanical and Aerospace Engineering.Lectures three hours a week.

MECH 4407 [0.5 credit]Heating and Air ConditioningEnvironmental demands for residential, commercial andindustrial systems. Methods of altering and controllingenvironment. Air distribution. Refrigeration methods,equipment and controls. Integrated year-round air-conditioning and heating systems; heat pumps. Coolingload and air-conditioning calculations. Thermal radiationcontrol. Component matching. System analysis anddesign.Prerequisite(s): MAAE 2400 and third- or fourth- yearstatus in Engineering.Lectures three hours a week.

MECH 4408 [0.5 credit]Thermofluids and Energy Systems DesignIntegration of fluid mechanics, thermodynamics, andheat transfer for design of energy conversion systems.Chemical kinetics and mass transfer. Efficient combustion,fuel cells and batteries. Efficient operation and design ofengines, power generators, boilers, furnaces, incinerators,and co-generation systems. Emerging energy systems.Prerequisite(s): MAAE 3400 and MECH 4406.Lectures three hours per week.


MECH 4501 [0.5 credit]State Space Modeling and ControlReview of matrices. Geometric structure and dynamicsof linear systems. Controllability and observability. Poleplacement design of controllers and observers. Designof regulator and servo systems. Transmission zeros.Eigenstructure assignment. Relationship to frequency orclassical control techniques. Computer solutions usingMATLAB. Applications.Precludes additional credit for SYSC 5502.Prerequisite(s): MAAE 4500 or AERO 4540 orSYSC 4505.Lectures three hours a week.

MECH 4503 [0.5 credit]An Introduction to RoboticsHistory of robotics and typical applications. Roboticactuators and sensors. Kinematics of manipulators,inverse kinematics, differential relationships and theJacobian. Manipulator dynamics. Trajectory generationand path planning. Robot control and performanceevaluation. Force control and compliance. Applications inmanufacturing and other industries.Prerequisite(s): MATH 3705 and SYSC 3600 orSYSC 3610.Lectures three hours a week.

MECH 4604 [0.5 credit]Finite Element MethodsFinite element methodology with emphasis on applicationsto stress analysis, heat transfer and fluid flow using thesimplest one- and two-dimensional elements. Directequilibrium, variational and Galerkin formulations.Computer programs and practical applications. Higherorder elements.Prerequisite(s): MAAE 3202 and (MAAE 3300 orMECH 3310).Lectures three hours a week.

MECH 4704 [0.5 credit]Integrated Manufacturing - CIMSOverview of the topics essential to CIMS includingintegration of design and assembly techniques, numericalanalysis, statistical process control and related productiontechnologies within the manufacturing enterprise.Prerequisite(s): AERO 3700 or MECH 3700.Also offered at the graduate level, with differentrequirements, as MECH 5704, for which additional credit isprecluded.Lectures three hours a week.

MECH 4705 [0.5 credit]CAD/CAMIntroduction to contemporary computer aided designand manufacturing (CAD/CAM) Topics covered includemathematical representation, solid modeling, drafting,mechanical assembly mechanism design, (CNC)machining. Current issues such as CAD data exchangestandards, rapid prototyping, concurrent engineering, anddesign for X (DFX) are also discussed.Prerequisite(s): MAAE 2001 (Engineering Graphics andDesign) and fourth-year status in Engineering. Lecturesthree hours a week.Lectures three hours a week.

MECH 4805 [0.5 credit]Measurement and Data SystemsExperimental data, accuracy and uncertainty analysis.Analog systems. Sensors. Signal conditioning. Op-Amps, instrumentation amplifiers, charge amplifiers,filters. Digital techniques. Encoders, A/D D/A converters.Data acquisition using microcomputers. Hardware andsoftware considerations. Interfacing. Applications tomeasurement of motion, strain, force/torque, pressure,fluid flow, temperature.Precludes additional credit for Engineering ELEC 4805.Prerequisite(s): STAT 3502, SYSC 3600 or SYSC 3610,and ELEC 3605 or ELEC 2501 or SYSC 3203.Lectures three hours a week.

MECH 4806 [0.5 credit]MechatronicsIntroduction to the integration of mechanical, electronicand software components to build mechatronic devices.Mechanical and electrical systems modeling, simulationand implementation. Basic automation and computerrequirements. Design tools and examples of mechatronicapplications.Prerequisite(s): MAAE 4500 or AERO 4540 orSYSC 4505.Lectures three hours per week.

Mechanical and Aero. Eng. (MAAE) CoursesDepartment of Mechanical and AerospaceEngineeringFaculty of Engineering and Design

MAAE 2001 [0.5 credit]Engineering Graphical DesignEngineering drawing techniques; fits and tolerances;working drawings; fasteners. Elementary descriptivegeometry; true length, true view, and intersection ofgeometric entities; developments. Assignments will makeextensive use of Computer-Aided Design (CAD) and willinclude the production of detail and assembly drawingsfrom actual physical models.Prerequisite(s): ECOR 1010.Lectures and tutorials two hours a week, laboratory fourhours a week.

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MAAE 2101 [0.5 credit]Engineering DynamicsReview of kinematics and kinetics of particles: rectilinearand curvilinear motions; Newton's second law; energyand momentum methods. Kinematics and kinetics ofrigid bodies: plane motion of rigid bodies; forces andaccelerations; energy and momentum methods.Precludes additional credit for CIVE 2101.Prerequisite(s): ECOR 1101 and MATH 1005 andMATH 1104.Lectures three hours a week, problem analysis three hoursa week.

MAAE 2202 [0.5 credit]Mechanics of Solids IReview of Principles of Statics; friction problems;Concepts of stress and strain at a point; staticallydeterminate and indeterminate stress systems; torsionof circular sections; bending moment and shear forcediagrams; stresses and deflections in bending; bucklinginstability.Precludes additional credit for CIVE 2200.Prerequisite(s): ECOR 1101, MATH 1005 and MATH 1104.Lectures three hours a week, problem analysis andlaboratory three hours a week.

MAAE 2300 [0.5 credit]Fluid Mechanics IFluid properties. Units. Kinematics, dynamics of fluidmotion: concepts of streamline, control volume, steadyand one-dimensional flows; continuity, Euler, Bernouilli,steady flow energy, momentum, moment of momentumequations; applications. Fluid statics; pressure distributionin fluid at rest; hydrostatic forces on plane and curvedsurfaces; buoyancy.Prerequisite(s): MATH 1005, MATH 1104 and ECOR 1101.Lectures three hours a week, laboratory and problemanalysis three hours a week.

MAAE 2400 [0.5 credit]Thermodynamics and Heat TransferBasic concepts of thermodynamics: temperature,work, heat, internal energy and enthalpy. First lawof thermodynamics for closed and steady-flow opensystems. Thermodynamic properties of pure substances;changes of phase; equation of state. Second law ofthermodynamics: concept of entropy. Simple powerand refrigeration cycles. Introduction to heat transfer:conduction, convection and radiation.Prerequisite(s): CHEM 1101 or CHEM 1001 andCHEM 1002, MATH 1005 and MATH 1104.Lectures three hours a week, laboratory and problemanalysis three hours a week.

MAAE 2700 [0.5 credit]Engineering MaterialsMaterials (metals, alloys, polymers) in engineeringservice; relationship of interatomic bonding, crystalstructure and defect structure (vacancies, dislocations) tomaterial properties; polymers, phase diagrams and alloys;microstructure control (heat treatment) and mechanicalproperties; material failure; corrosion.Precludes additional credit for CIVE 2700.Prerequisite(s): CHEM 1101 or CHEM 1001 andCHEM 1002 and ECOR 1101.Lectures three hours a week, problem analysis andlaboratory three hours a week.

MAAE 3004 [0.5 credit]Dynamics of MachineryKinematic and dynamic analysis of mechanisms andmachines. Mechanism force analysis. Static and dynamicbalancing. Kinematic and dynamic analysis of cams. Freeand forced vibration of single-degree-of-freedom systems.Introduction to multibody dynamics.Prerequisite(s): MAAE 2101.Lectures three hours a week, problem analysis andlaboratories two hours a week.

MAAE 3202 [0.5 credit]Mechanics of Solids IIStress and strain transformations: torsion of non-circularsections; unsymmetric bending and shear centre; energymethods; complex stresses and criteria of yielding;elementary theory of elasticity; axisymmetric deformations.Precludes additional credit for CIVE 3202.Prerequisite(s): MAAE 2202.Lectures three hours a week, problem analysis andlaboratory three hours a week.

MAAE 3300 [0.5 credit]Fluid Mechanics IIReview of control volume analysis. Dimensional analysisand similitude. Compressible flow: isentropic flowrelations, flow in ducts and nozzles, effects of friction andheat transfer, normal and oblique shocks, two-dimensionalisentropic expansion. Viscous flow theory: hydrodynamiclubrication and introduction to boundary layers.Prerequisite(s): MATH 2004 and MAAE 2300.Lectures three hours a week, problem analysis andlaboratory three hours a week.

MAAE 3400 [0.5 credit]Applied ThermodynamicsGas and vapour power cycles: reheat, regeneration,combined gas/vapour cycles, cogeneration. Heat pumpand refrigeration cycles: vapour compression cycles,absorption refrigeration and gas refrigeration. Mixtures ofperfect gases and vapours: psychometry and combustion.Principles of turbomachinery.Prerequisite(s): MAAE 2400.Lectures three hours a week, problem analysis andlaboratories one hour a week.


MAAE 3901 [0.5 credit]Mech and Aero Engineering LabStudents perform a series of laboratory exercises dealingwith a wide range of mechanical engineering topics.Included in this course is a group design project. Studentsrelate theory and practice and develop experience withmodern engineering equipment, measurement techniquesand design methodology. Good reporting practice isemphasized.Prerequisite(s): third-year status in Engineering.Lectures and tutorials one hour a week, laboratory fivehours a week.

MAAE 3999 [0.0 credit]Co-operative Work Term

MAAE 4102 [0.5 credit]Materials: Strength and FractureAnalysis and prevention of failures in metals; plasticityanalysis and plastic collapse; micro-mechanisms offracture, conditions leading to crack growth and transitiontemperature effects, fracture mechanics, fatigue,environmentally assisted cracking, non-destructiveevaluation and testing.Prerequisite(s): MAAE 2700 and MAAE 3202.Lectures three hours a week.

MAAE 4500 [0.5 credit]Feedback Control SystemsIntroduction to the linear feedback control. Analysisand design of classical control systems. Stability andthe Routh-Hurwitz criteria. Time and frequency domainperformance criteria, robustness and sensitivity. Rootlocus, Bode and Nyquist design techniques. Controlsystem components and industrial process automation.Precludes additional credit for SYSC 4505.Prerequisite(s): MATH 3705 and SYSC 3600 orSYSC 3610.Lectures three hours a week.

MAAE 4906 [0.5 credit]Special Topics: Mech and Aero Eng.At the discretion of the Faculty, a course may be offeredthat deals with selected advanced topics of interest toAerospace and Mechanical Engineering students.Prerequisite(s): permission of the Department.

MAAE 4907 [1.0 credit]Engineering Design ProjectTeam project in the design of an aerospace, biomedical,mechanical, or sustainable energy system. Opportunity todevelop initiative, engineering judgement, self-reliance,and creativity in a team environment. Results submittedin a comprehensive report as well as through formal oralpresentations.Prerequisite(s): fourth-year status in Engineering andcompletion of, or concurrent registration in, AERO 4003or AERO 4842 or MECH 4003 or MECH 4013 orSREE 4001. Certain projects may have additionalprerequisites.

MAAE 4917 [0.5 credit]Undergraduate Directed StudyStudent carries out a study, analysis, and solution of anengineering problem. Results presented in the form ofa written report. Carried out under the close supervisionof a faculty member. Intended for students interested inpursuing graduate studies. Requires supervising facultymember and proposal from student.Prerequisite(s): permission of the Department andcompletion of, or concurrent registration in, AERO 4907 orMECH 4907.

Sustainable & Renewable Energy (SREE)CoursesDepartment of Mechanical and AerospaceEngineeringFaculty of Engineering and Design

SREE 1000 [0.0 credit]Introduction to Sustainable EnergyThe concept of energy sustainability. Energy-economysystem. Global energy trends, the next 100 years. Energyreserves and resources. Primary and secondary cleanenergy. Energy use, efficiency and renewables. Energyand the environment/climate change. Sustainable energychoices and policies.Prerequisite(s): registration in Sustainable and RenewableEnergy Engineering.Lectures one hour per week.

SREE 3001 [0.5 credit]Sustainable and Renewable Energy SourcesPrimary energy sources and the pathways to use.Renewables: photovoltaic, solar-thermal, hydropower,geothermal, tidal. Fossil fuels and nuclear. Terrestial,thermodynamic and electrical limitations.Prerequisite(s): ENVE 2001 and MAAE 2300 and(ELEC 3605 or ELEC 2501 or fourth-year status inEnvironmental Engineering).Lectures three hours per week, laboratories/problemanalysis one hour per week.

SREE 3002 [0.5 credit]Energy Distribution and Efficient UtilizationElectricity, hydrocarbons and hydrogen. Renewables,biofuels and biogas technologies. Distribution, smart grids,and storage systems. Systems integrating centralizedand distributed energy conversion systems. Utilizationfor mobility, light, heating/cooling, industrial-thermal/mechanical, electrolysis.Prerequisite(s): SREE 3001 and (ELEC 2501 orELEC 3605).Lectures three hours per week, laboratories/problemanalysis one hour per week.

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SREE 3003 [0.5 credit]Sustainable Energy Systems DesignResidential, commercial and institutional use of energy,efficiency of end use systems. Solar power; technology,generation and economics. Passive solar heating/cooling.Fuel cell thermodynamics, kinetics and solid oxide fuelcells. Wind, ocean, geothermal, biofuels and biogas.Integrated systems combining thermal and mechanicalneeds. Life-cycle analysis of alternatives.Prerequisite(s): SREE 3001 and (ELEC 2501 orELEC 3605).Lectures three hours per week, laboratories/problemanalysis three hours per week.

SREE 4001 [0.5 credit]Efficient Energy ConversionSteam generators, solid, liquid, gaseous and biofuels andcycles. Geothermal, solar powerplants. Energy storage.Environmental aspects of power generation. Industrialuse and auto-generation of energy. Energy intensityand efficiency of industrial processes and products.Comparative analysis of raw material, energy, or producttransport. Life-cycle analysis of alternatives.Prerequisite(s): SREE 3002 and SREE 3003.Lectures three hours per week, laboratories/problemanalysis three hours per week.

SREE 4002 [0.5 credit]The Energy Economy, Reliability and RiskInterrelationship between energy and economic policyand regulations. Reliability of energy supply systems. Riskanalysis and its application to the generation, distributionand environmental impacts of energy. Risks analysis andmanagement associated with natural and human andregulatory influences. Environmental and public health riskanalysis.Prerequisite(s): fourth-year status in Engineering.Lectures three hours per week.

SREE 4907 [1.0 credit]Energy Engineering ProjectStudent teams develop professional-level experience byapplying, honing, integrating and extending previouslyacquired knowledge in a major design project. Lecturesare devoted to discussing project-related issues andstudent presentations. A project proposal, interim report,oral presentations, and a comprehensive final report arerequired.Prerequisite(s): fourth-year status in Sustainable andRenewable Energy Engineering and ECOR 4995 (may betaken concurrently). Certain projects may have additionalprerequisites or corequisites.Lecture one hour a week, laboratory seven hours a week.

Systems and Computer Engineering (SYSC)CoursesDepartment of Systems and ComputerEngineeringFaculty of Engineering and Design

Note: the Departments of Systems and ComputerEngineering and Electronics offer courses in: Biomedicaland Electrical Engineering, Communications Engineering,Computer Systems Engineering, Electrical Engineering,Software Engineering and Engineering Physics.

SYSC 1005 [0.5 credit]Introduction to Software DevelopmentSoftware development as an engineering discipline,using a modern programming language, Languagesyntax. Algorithm design. Tracing and visualizing programexecution. Testing and debugging. Program style,documentation, reliability. Lab projects are drawn from avariety of application domains: digital image manipulation,computer games, robotics.Precludes additional credit for ECOR 1606, SYSC 1100,COMP 1005 and COMP 1405.Lectures two hours a week, tutorial one hour a week,laboratory three hours a week.

SYSC 2001 [0.5 credit]Computer Systems FoundationsComputer architecture and organization: CPU, cache,memory, input/output, bus structures, interrupts; computerarithmetic: integer and floating point; CPU: instruction sets,addressing modes, instruction encoding. Input/output:programmed, interrupt-driven, block-oriented. Examplesfrom several modern processor families.Prerequisite(s): ECOR 1606 or SYSC 1005. Additionalrecommended background: SYSC 2006.Lectures three hours a week, laboratory two hours a week.

SYSC 2003 [0.5 credit]Introductory Real-Time SystemsPrinciples of event-driven systems. Review of computerorganization. Assemblers and linkers. Developmentof embedded applications. Programming externalinterfaces, programmable timer. Input/output methods:polling, interrupts. Real-time issues: concurrency, mutualexclusion, buffering. Introduction to concurrent processes.Precludes additional credit for SYSC 3003 andSYSC 3006.Prerequisite(s): SYSC 2001 and SYSC 2006.Lectures three hours a week, laboratory two hours a week.

SYSC 2004 [0.5 credit]Object-Oriented Software DevelopmentDesigning and implementing small-scale programs ascommunities of collaborating objects, using a dynamically-typed or statically-typed programming language.Fundamental concepts: classes, objects, encapsulation,information hiding, inheritance, polymorphism. Iterative,incremental development and test-driven development.Precludes additional credit for SYSC 1101, COMP 1006and COMP 1406.Prerequisite(s): SYSC 2006 or permission of thedepartment.Lectures three hours a week, laboratory two hours a week.


SYSC 2006 [0.5 credit]Foundations of Imperative ProgrammingModular programming with a procedural language.Compilation and linking, libraries. Memory managementand object lifetimes: static allocation, automatic allocationin stack frames, dynamic allocation from the heap.Introduction to data structures: dynamic arrays, linked lists.Collections: lists, stacks, queues. Introduction to recursion.Precludes additional credit for SYSC 1102, SYSC 2002and COMP 2401.Prerequisite(s): ECOR 1606 or SYSC 1005.Lectures three hours a week, laboratory two hours a week.

SYSC 2100 [0.5 credit]Algorithms and Data StructuresThorough coverage of fundamental abstract collections:stacks, queues, lists, priority queues, dictionaries, sets,graphs. Data structures: review of arrays and linkedlists; trees, heaps, hash tables. Specification, design,implementation of collections, complexity analysis ofoperations. Sorting algorithms.Precludes additional credit for SYSC 2002 andCOMP 2402.Prerequisite(s): SYSC 2006 and SYSC 2004.Lectures three hours a week, laboratory two hours a week.

SYSC 3006 [0.5 credit]Computer OrganizationComputer organization: processor, memory, input/output, system bus. Number systems: binary, decimal,hexadecimal. Assembly language programming:representation of data, instruction encoding, execution.Devices: keyboard, programmable timer, parallel interface.Input/output methods: polling, hardware/softwareinterrupts.Precludes additional credit for SYSC 2001 andSYSC 2003 May not be taken for credit by studentsin Computer Systems Engineering, CommunicationsEngineering, or Software Engineering.Prerequisite(s): SYSC 2006 and ELEC 2607.Lectures three hours a week, laboratory two hours a week.

SYSC 3010 [0.5 credit]Computer Systems Development ProjectDevelopment of expertise in designing, implementingand testing maintainable, reusable software throughteam projects. Applying modern programming languages,design patterns, frameworks, UML and moderndevelopment processes (refactoring, iterative andincremental development, version control techniques) tomedium-scale projects; for example, embedded or mobileapplications.Precludes additional credit for SYSC 2101, SYSC 3110and COMP 2404.Prerequisite(s): SYSC 2100, and third-year status inComputer Systems Engineering.Lectures two hours a week, laboratory three hours a week.

SYSC 3020 [0.5 credit]Introduction to Software EngineeringIntroduction to software engineering principles,software development life-cycles. Modelling in softwareengineering. Current techniques, notations, methods,processes and tools used in software engineering. UMLmodelling. Introduction to software quality, softwareverification and validation, software testing.Precludes additional credit for SYSC 3100, SYSC 3120,SYSC 4120 and COMP 3004.Prerequisite(s): SYSC 2004 and (SYSC 2006 or SYSC2002).Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 3101 [0.5 credit]Programming LanguagesPrinciples underlying different kinds of programminglanguages (procedural, functional, logic programming)and their semantics. Overview of machinery needed forlanguage support (compilers, interpreters and run-timesystems).Precludes additional credit for COMP 3007.Prerequisite(s): SYSC 2004.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 3110 [0.5 credit]Software Development ProjectDevelopment of expertise in designing, implementingand testing maintainable, reusable software throughteam projects. Applying modern programming languages,design patterns, frameworks, UML and moderndevelopment processes (detection of olfactible sourcecode defects, refactoring, iterative and incrementaldevelopment, version control techniques) to medium-scaleprojects.Precludes additional credit for SYSC 2101, SYSC 3010and COMP 2404.Prerequisite(s): SYSC 2100, and third-year status inSoftware Engineering.Lectures two hours a week, laboratory three hours a week.

SYSC 3120 [0.5 credit]Software Requirements EngineeringCurrent techniques, notations, methods, processes andtools used in Requirements Engineering. Requirementselicitation, negotiation, modeling requirements,management, validation. Skills needed for RequirementsEngineering and the many disciplines on which it draws.Requirements analysis: domain modeling, modeling objectinteractions; UML modeling. Introduction to softwaredevelopment processes.Precludes additional credit for SYSC 3020 andCOMP 3004.Prerequisite(s): SYSC 2100 and third-year status inSoftware Engineering.Lectures three hours a week, laboratory two hours a week.

34 Engineering

SYSC 3200 [0.5 credit]Industrial EngineeringTechniques of operations research for decision-makingin complex engineering systems. Linear programming,network models, PERT, integer programming, dynamicprogramming, queuing systems and inventory models.Problem solving is emphasized.Precludes additional credit for BUSI 2300, ECON 4004, orMATH 3801.Prerequisite(s): MATH 1004 and MATH 1104 and(ECOR 1606 or SYSC 1100).Lectures three hours a week, laboratory/problem analysis1.

SYSC 3203 [0.5 credit]Bioelectrical SystemsBiomedical transducers, sensors, and biomedicalactuators. Biomaterials and biocompatibility. Amplifierdesigns: inverting, noninverting, differential, andbioinstrumentation. Amplifier analysis: gain, sensitivity,distortion and stability. Filter design. Sampling andquantization. Electrical machines. Biomedical electricalsafety and standards.Prerequisite(s): MATH 3705 and PHYS 1004 andenrolment in Biomedical and Electrical Engineering orBiomedical and Mechanical Engineering programs.Lectures three hours a week, laboratory three hours aweek.

SYSC 3303 [0.5 credit]Real-Time Concurrent SystemsPrinciples and practice of a systems engineering approachto the development of software for real-time, concurrent,distributed systems. Designing to achieve concurrency,performance, and robustness, using visual notations.Converting designs into programs. Introduction to hardreal-time systems. Team project.Prerequisite(s): for students in the Faculty of Engineeringand Design: SYSC 2003 and SYSC 2004; for students inComputer Science: COMP 2401 and COMP 2402.Lectures three hours a week, laboratory two hours a week.

SYSC 3500 [0.5 credit]Signals and SystemsSignals: energy and power signals, discrete-time andcontinuous. Linear systems and convolution. FourierTransform; complex Fourier series; signal spectralproperties and bandwidth. Laplace transform andtransient analysis. Transfer functions, block diagrams.Baseband and passband signals, with applications tocommunications systems.Precludes additional credit for SYSC 3600, SYSC 2500(no longer offered) and SYSC 3610.Prerequisite(s): MATH 2004.Lectures three hours a week, problem analysis three hoursalternate weeks.

SYSC 3501 [0.5 credit]Communication TheoryReview of signals, linear systems and Fourier theory;signal bandwidth and spectra; digital waveform coding;introduction to analog and digital modulation systems;synchronization; characterization and effects of noise; linkbudgets; communications media and circuits; applicationsto current communications systems.Precludes additional credit for SYSC 3503.Prerequisite(s): MATH 3705 and (SYSC 3600 orSYSC 3610).Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 3503 [0.5 credit]Communication Theory IIAmplitude Modulation. Frequency Modulation.Performance of AM and FM in noise. Communicationchannels, channel models, noise sources, noise models.Digital modulation: ASK, FSK, PSK. Optimal reception,probability of error on the AWGN channel.Precludes additional credit for SYSC 3501 or SYSC 4600.Prerequisite(s): SYSC 3500 and STAT 2605.Lectures three hours a week, laboratory, three hoursalternate weeks.

SYSC 3600 [0.5 credit]Systems and SimulationProperties of linear systems. Linear dynamic modelsof engineering systems. Applications of the Laplacetransform. Transfer functions. Block diagrams. Frequencyand time response. System simulation with digitalcomputers.Precludes additional credit for SYSC 2500 (no longeroffered), SYSC 3500 or SYSC 3610.Prerequisite(s): MATH 1005, and (ECOR 1101 orPHYS 1001).Lectures three hours a week, laboratory three hours aweek.

SYSC 3601 [0.5 credit]Microprocessor SystemsMicroprocessor-based system design for differentmicroprocessor families. Microprocessors: internalorganization, instruction sets, address generation, pin-outs, bus cycles, signalling waveforms. Interfacingmemory and I/O devices. Interrupt structures, directmemory access. Floating point coprocessors. System busstandards. Introduction to DSPs.Precludes additional credit for ELEC 4601.Prerequisite(s): ELEC 2607, and SYSC 2003 orpermission of the department.Lectures three hours a week, laboratory three hoursalternate weeks.


SYSC 3610 [0.5 credit]Biomedical Systems, Modeling, and ControlProperties of linear systems. Linear dynamic models ofbiomedical systems. Biomedical application of the Laplacetransforms. Transfer functions. Block diagram. Frequencyand time response. Feedback, control, and stability.Biomedical systems modeling and control.Precludes additional credit for SYSC 3500 or SYSC 3600.Prerequisite(s): MATH 3705 and ECOR 1101 andenrolment in Biomedical and Electrical Engineeringprogram or in Biomedical and Mechanical Engineeringprograms.Lectures three hours a week, laboratory three hours aweek.

SYSC 3999 [0.0 credit]Co-operative Work Term

SYSC 4001 [0.5 credit]Operating SystemsIntroduction to operating system principles. Processes andthreads. CPU scheduling. Managing concurrency: mutualexclusion and synchronization, deadlock and starvation.Managing memory and input/output. Concurrentprogramming, including interprocess communication indistributed systems.Precludes additional credit for SYSC 3001 andCOMP 3000.Prerequisite(s): SYSC 2006 and (SYSC 2003 orSYSC 3006).

SYSC 4005 [0.5 credit]Discrete Simulation/ModelingSimulation as a problem solving tool. Random variablegeneration, general discrete simulation procedure: eventtable and statistical gathering. Analyses of simulationdata: point and interval estimation. Confidence intervals.Overview of modeling, simulation, and problem solvingusing SIMSCRIPT, MODSIM, and other languages.Prerequisite(s): (STAT 2605 or STAT 3502) andfourth-year status in Engineering, or permission of theDepartment.Also offered at the graduate level, with differentrequirements, as SYSC 5001, for which additional credit isprecluded.Lectures three hours a week, laboratory one hour a week.

SYSC 4101 [0.5 credit]Software ValidationTechniques for the systematic testing of software systems.Software validation and verification, software debugging,quality assurance, measurement and prediction ofsoftware reliability. Emphasis on the treatment of thesetopics in the context of real-time and distributed systems.Precludes additional credit for COMP 4004.Prerequisite(s): SYSC 3120 or SYSC 3020.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

SYSC 4102 [0.5 credit]Performance EngineeringTechniques based on measurements and models, forpredicting and evaluating the performance of computersystems. Instrumentation. Simple queueing modelsand approximations. Techniques for modifying softwaredesigns to improve performance.Prerequisite(s): STAT 3502 and SYSC 4001.Also offered at the graduate level, with differentrequirements, as SYSC 5101, for which additional credit isprecluded.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

SYSC 4105 [0.5 credit]Engineering ManagementIntroduction to engineering management: management ofnew products, management of manufacturing processes,management of the linkages between new products andmanufacturing processes. Current theories, concepts andtechniques are stressed, using a combination of readings,cases and guest speakers.Prerequisite(s): fourth-year status in Engineering.Lectures three hours a week.

SYSC 4106 [0.5 credit]Software Product ManagementStages of the life cycle of software products and theirimplications for architecture definition, requirementsspecification, variety, target market segmentation,adoption, roll-out plans, documentation, maintenance,skills, building prototypes, testing, feature prioritization,quality and tools infrastructures.Prerequisite(s): SYSC 3020 or SYSC 3120 (may be takenconcurrently) or COMP 3004.Lectures three hours a week, laboratory/problem analysistwo hours a week.

SYSC 4107 [0.5 credit]Software BusinessEstablishing and growing businesses anchored onsoftware design and development. Models for softwarebusiness; partnerships with suppliers and customers;distribution; raising money; intellectual property protection;evolving core products and sources of competitiveadvantage; alignment among the business model,infrastructures, and software development.Prerequisite(s): fourth-year status in Engineering orComputer Science.Lectures three hours a week.

36 Engineering

SYSC 4120 [0.5 credit]Software Architecture and DesignIntroduction and importance of software architectures andsoftware system design in software engineering. Currenttechniques, modeling notations, method processes andtolls used in software architecture and system design.Software architectures, architectural patterns, designpatterns, software qualities, software reuse.Precludes additional credit for SYSC 3020, SYSC 4800and COMP 3004.Prerequisite(s): SYSC 3120.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4201 [0.5 credit]Ethics, Research Methods and Standards forBiomedical EngineeringEthical theories, ethical decision-making, biomedicalresearch ethics: informed consent, confidentiality,privacy, research ethics boards; research methods:hypothesis formulation, data collection, sampling bias,experimental design, statistical literacy; regulations fordesign, manufacture, certification of medical devices;impact of technology and research (social, political,financial).Prerequisite(s): ELEC 3605 or SYSC 3203.Lectures three hours a week, problem analysis three hoursalternate weeks.

SYSC 4202 [0.5 credit]Clinical EngineeringOverview of the Canadian health care system; briefexamples of other countries; clinical engineering andthe management of technologies in industrializedand in developing countries; safety, reliability, qualityassurance; introduction to biomedical sensor technologies;applications of telemedicine; impact of technology onhealth care.Prerequisite(s): fourth-year status in Biomedical andElectrical or Biomedical and Mechanical Engineering.Lectures three hours a week, problem analysis three hoursalternate weeks.

SYSC 4203 [0.5 credit]Bioinstrumentation and SignalsBioinstrumentation and biological signals; instrumentationsystems, noise, electrical safety, and biocompatibility;bioelectric signals; biopotential electrodes: materialproperties, selection, and fabrication; measurement offlow and pressure; data acquisition; signal processing;biomedical imaging technologies; performance andcharacteristics of bioamplifier systems; major physiologicalsystems and associated measurements.Prerequisite(s): (SYSC 3600 or SYSC 3500 orSYSC 3610) and (ELEC 2507 or ELEC 3605 orSYSC 3203) and fourth-year status in Biomedical andElectrical Engineering or fourth-year status in Biomedicaland Mechanical Engineering.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

SYSC 4205 [0.5 credit]Image Processing for Medical ApplicationsTwo-dimensional signals, filters, and Fourier transforms.Image acquisition, sampling, quantization andrepresentation. Image perception. Digital and filmcameras. Medical imaging technologies. Image processingoperations: histogram, convolution, morphological,segmentation, registration. Image compression andformats.Prerequisite(s): MATH 3705 and fourth-year status inEngineering.Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

SYSC 4405 [0.5 credit]Digital Signal ProcessingDiscrete time signal and system representation: timedomain, z-transform, frequency domain. Samplingtheorem. Digital filters: design, response, implementation,computer-aided design. Spectral analysis: the discreteFourier transform and the FFT. Applications of digitalsignal processing.Prerequisite(s): SYSC 3500 or SYSC 3600 or SYSC 3610.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4502 [0.5 credit]Communications SoftwareLayered communication software models and Internetprotocols. FSM, EFSM, and MSC. APIs and socketprogramming. Routing algorithms and data structures.Packet scheduling algorithms and real-time operatingsystems. Layer integration and implementation issues.Precludes additional credit for SYSC 3502.Prerequisite(s): SYSC 4602 and SYSC 2004 and fourthyear status in Electrical Engineering, Computer SystemsEngineering, or Software Engineering, or third year statusin Communications Engineering.Lectures three hours a week, problem analysis three hoursalternate weeks.

SYSC 4504 [0.5 credit]Distributed Network ProcessingSoftware aspects of distributed networks. Client-serversystems. Internet and the WWW. LAN's and WAN's,routing protocols. Transportable software, Java applets.Use of modern software tools in communication networkmonitoring and analysis. Network management.Prerequisite(s): SYSC 2004 or SYSC 2100. Additionalrecommended background: SYSC 4602 or SYSC 3303.Lectures three hours a week, laboratory three hoursalternate weeks.


SYSC 4505 [0.5 credit]Automatic Control Systems IReview of Laplace transform techniques. Effects offeedback: frequency response, pole-zero positions.Compensation: root locus, Bode plots. State variables:formulation, solution of linear systems, examples of simplesecond-order non-linear systems. Discrete time systems:z-transforms. Signal reconstruction.Precludes additional credit for MAAE 4500.Prerequisite(s): MATH 2004 and (SYSC 3500 orSYSC 3600 or SYSC 3610).Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4507 [0.5 credit]Computer Systems ArchitectureEvolution of computer systems architecture, influences ofchanging technology, techniques to improve performance,memory hierarchy, hardware accelerators. Instruction levelparallelism, pipelining, vector processing, superscalar,out of order execution, speculative execution. Threadlevel parallelism, multi-core, many-core, heterogeneoussystems. Evolution of architectures for specific applicationdomains.Prerequisite(s): ELEC 2607 and (SYSC 2001 orSYSC 3006).Lectures three hours a week, laboratory/problem analysisone hour a week.

SYSC 4600 [0.5 credit]Digital CommunicationsReview of probability, random variables, signalrepresentation. Baseband data transmission: Nyquistcriterion, equalization, optimal receiver, error probability.Digital modulation, performance. Synchronization.Introduction to information theory. Error detection andcorrection. Spread spectrum. Applications to current digitalwired and wireless communications systems.Precludes additional credit for SYSC 3503 andSYSC 4604.Prerequisite(s): SYSC 3501 and STAT 3502.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4602 [0.5 credit]Computer CommunicationsLayered protocol architectures, OSI. Physical media,physical layer interfaces, data transmission. Data-link protocols, multiplexing, polling. LANs, IEEE 802standards, performance. Switched Ethernets, FDDI,bridges. Wide area networks, packet-switching networks,X.25. Frame relay, internetworking, DoD protocols, TCP,UDP. ATM LANs, adaptation layers, traffic issues.Precludes additional credit for COMP 3203.Prerequisite(s): STAT 2605 or STAT 3502 (may be takenconcurrently), and fourth-year status in Biomedical andElectrical, Electrical, Computer Systems, Software, orSustainable and Renewable Energy Engineering, or third-year status in Communications Engineering.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4604 [0.5 credit]Digital Communication TheoryIntroduction to information theory, source coding anddata compression, Error control coding, Trellis codedmodulation, advanced topics of current interest: spreadspectrum; digital wireless communications.Precludes additional credit for SYSC 4600.Prerequisite(s): SYSC 3503.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4607 [0.5 credit]Wireless CommunicationsWireless radio channel characterization, diversity,equalization; cellular architecture, multiple accessprinciples, spread spectrum systems, radio resourcemanagement; examples from modern wireless systems,networks, and standards, including cellular networks,WLANs, ad hoc networks, and satellite systems.Prerequisite(s): SYSC 3501 or SYSC 3503.Lectures three hours a week, laboratory three hoursalternate weeks.

SYSC 4700 [0.5 credit]Telecommunications EngineeringTelecommunications as a national and internationalinfrastructure. Systems view of network architecture:transmission, access, switching, multiplexing, signalling,and teletraffic. Network planning, management,security and control. Role of government, regulationand competition. Current telecommunications networkevolution.Prerequisite(s): fourth-year status in Electrical, ComputerSystems or Communications Engineering, and(SYSC 3501 or SYSC 3503).Lectures three hours a week, laboratory/problem analysisthree hours alternate weeks.

SYSC 4701 [0.5 credit]Communications Systems LabProject-oriented level experience in the design ofcommunication systems to meet user requirements.Lectures on queuing theory and teletraffic analysis; systemspecification and design: requirements analysis, solutionalternatives, evaluation of alternative technologies, design,costing, implementation, test.Prerequisite(s): fourth-year status in CommunicationsEngineering.Lectures two hours a week, laboratory four hours a week.

SYSC 4805 [0.5 credit]Computer Systems Design LabDeveloping professional-level expertise in selected,important areas of the field by applying, honing,integrating, and extending previously acquired knowledgein team projects in the laboratory. Lecture periods aredevoted to new knowledge required for the selected areas,to project-related issues, and to student presentations.Prerequisite(s): SYSC 3303 and SYSC 3020 and fourthyear status in Computer Systems Engineering.Lectures two hours a week, laboratory four hours a week.

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SYSC 4806 [0.5 credit]Software Engineering LabApplying the full spectrum of engineering andprogramming knowledge acquired in the programthrough team projects in the laboratory. Practice in doingpresentations and reviews. Lectures will discuss softwareengineering issues as they relate to the projects, from amature point of view.Prerequisite(s): SYSC 4120 and fourth-year status inSoftware Engineering.Lectures two hours a week, laboratory four hours a week.

SYSC 4906 [0.5 credit]Special TopicsAt the discretion of the Department, a course dealingwith selected advanced topics of interest to students inBiomedical and Electrical, Communications, ComputerSystems, Electrical, Software Engineering, andEngineering Physics may be offered.Prerequisite(s): permission of the Department.

SYSC 4907 [1.0 credit]Engineering ProjectStudent teams develop professional-level experienceby applying previously acquired knowledge to a majordesign project. Lectures discuss project-related issues andstudent presentations. A project proposal, interim report,oral presentations, and a comprehensive final report arerequired.Prerequisite(s): fourth-year status in Engineering andECOR 4995 (may be taken concurrently). Certain projectsmay have additional prerequisites.Lecture one hour a week, laboratory seven hours a week.

SYSC 4917 [1.0 credit]Biomedical Engineering ProjectStudent teams develop professional-level experienceby applying previously acquired knowledge to a majordesign project in biomedical engineering. Lectures discussproject-related issues and student presentations. Aproject proposal, interim report, oral presentations, and acomprehensive final report are required.Prerequisite(s): fourth-year standing in Biomedical andElectrical Engineering and ECOR 4995 (may be takenconcurrently). Certain projects may have additionalprerequisites.Lecture one hour a week, laboratory seven hours a week.

SYSC 4927 [1.0 credit]Software Engineering ProjectStudent teams gain professional-level experience byapplying and extending previously acquired knowledge ina major design project in software engineering. Lecturesdiscuss project-related issues and student presentations.A project proposal, interim report, oral presentations, anda comprehensive final report are required.Prerequisite(s): fourth-year status in Software Engineeringand ECOR 4995 (may be taken concurrently). Certainprojects may have additional prerequisites.Lecture one hour a week, laboratory seven hours a week.

SYSC 4937 [1.0 credit]Communications Engineering ProjectStudent teams gain professional-level experience byapplying and extending previously acquired knowledgein a major design project in communications engineering.Lectures discuss project-related issues and studentpresentations. A project proposal, interim report, oralpresentations, and a comprehensive final report arerequired.Prerequisite(s): fourth-year status in CommunicationsEngineering and ECOR 4995 (may be taken concurrently).Certain projects may have additional prerequisites.Lecture one hour a week, laboratory seven hours a week.

Summer session: some of the courses listed in thisCalendar are offered during the summer. Hours andscheduling for summer session courses will differsignificantly from those reported in the fall/winterCalendar. To determine the scheduling and hours forsummer session classes, consult the class schedule atcentral.carleton.ca

Not all courses listed are offered in a given year. For anup-to-date statement of course offerings for the currentsession and to determine the term of offering, consult theclass schedule at central.carleton.ca

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