Note: This is the 2023–2024 eCalendar. Update the year in your browser's URL bar for the most recent version of this page, or .
Program Requirements
The Minor is designed for engineering students wishing to pursue a career in aerospace engineering. The program covers fundamental aircraft and spacecraft design and the certification process. The program includes further specialization in the following streams: aerodynamics and propulsion, structural analysis, materials and processes, spacecraft engineering and systems and avionics. A capstone aerospace design project is offered in the last year of the program in collaboration with the local aerospace companies.
The Minor in Aerospace Engineering is offered by the º£ÍâÖ±²¥bÕ¾ Institute of Aerospace Engineering and is open to all students in engineering programs.
A maximum of 15 credits of coursework in the student's major may double-count with the Minor.
Required Courses (6 credits)
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AERO 401 Introduction to Aerospace Engineering (3 credits)
Overview
AERO : Basic concepts in all relevant aspects of aerospace engineering. Introduction to aircraft and spacecraft components, systems and operation. Aerodynamic and flight mechanics. Structures and materials. Propulsion systems. Manufacturing processes. Control and systems. Avionics and navigation.
Terms: Fall 2023
Instructors: Hubert, Pascal (Fall)
(3-0-6)
Restrictions: Restricted to students enrolled in the Minor in Aerospace Engineering. Open to other students with instructor permission.
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AERO 410 Aerospace Design and Certification Process (3 credits)
Overview
AERO : Design and certification process for aircraft, helicopters and spacecraft. Operation and performance requirements. Preliminary and detailed design process. Performance analysis. Regulatory agencies overview. Certification process. Life cycle analysis. Cost analysis. Flight testing programs. Delivery and operation.
Terms: Winter 2024
Instructors: Mruczek, Christopher (Winter)
(3-0-6)
Prerequisite: AERO 401
Restriction: Restricted to students enrolled in the Minor in Aerospace Engineering
Complementary Courses (18 credits)
6 credits from list below:
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AERO 460D1 Aerospace Project (3 credits)
Overview
AERO : Application of the material learned in other courses in the Minor in Aerospace Engineering to an applied project. Team project work will involve the design, fabrication, verification, and application of an aerospace system / component. Lectures on topics related to design and management of design projects. Emphasis is on the completion of a project of professional quality in collaboration with the aerospace industry.
Terms: Fall 2023
Instructors: Hubert, Pascal (Fall)
Corequisite: AERO 410
Students must register for both AERO 460D1 and AERO 460D2.
No credit will be given for this course unless both AERO 460D1 and AERO 460D2 are successfully completed in consecutive terms
Restriction: Restricted to students enrolled in the Minor in Aerospace Engineering.
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AERO 460D2 Aerospace Project (3 credits)
Overview
AERO : For description see AERO 460D1.
Terms: Winter 2024
Instructors: Nadarajah, Sivakumaran (Winter)
Prerequisite: AERO 460D1
No credit will be given for this course unless both AERO 460D1 and AERO 460D2 are successfully completed in consecutive terms
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ECSE 458D1 Capstone Design Project (3 credits) *
Overview
Electrical Engineering : A design project undertaken with close mentorship by a staff member and under the supervision of the course instructor. The project consists of defining an engineering problem, reviewing relevant background, acquiring/analyzing data, and seeking solutions using appropriate simulation/analysis tools and experimental investigations. Professional engineering practices will be followed.
Terms: Fall 2023
Instructors: Psaromiligkos, Ioannis; Kanaan, Marwan (Fall)
Prerequisites: ECSE 211 and ECSE 324 and (CCOM 206 OR WCOM 206) and (ECSE 331 or COMP 302)
Students must register for both ECSE 458D1 and ECSE 458D2
No credit will be given for this course unless both ECSE 458D1 and ECSE 458D2 are successfully completed in consecutive terms
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ECSE 458D2 Capstone Design Project (3 credits) *
Overview
Electrical Engineering : See ECSE 458D1 for course description.
Terms: Winter 2024
Instructors: Psaromiligkos, Ioannis; Kanaan, Marwan (Winter)
Prerequisite: ECSE 458D1
No credit will be given for this course unless both ECSE 458D1 and ECSE 458D2 are successfully completed in consecutive terms
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ECSE 478D1 Electrical Engineering Honours Thesis (3 credits) *
Overview
Electrical Engineering : A research project undertaken with close mentorship by a staff member and under the supervision of the course instructor. The thesis consists of defining an engineering problem, reviewing relevant background, acquiring/analyzing data, and seeking design solutions using appropriate simulation/analysis tools and experimental investigations.
Terms: Fall 2023
Instructors: Psaromiligkos, Ioannis; Kanaan, Marwan (Fall)
Prerequisite: CCOM 206 OR WCOM 206 and at least 42 Departmental credits
Students must register for both ECSE 478D1 and ECSE 478D2
No credit will be given for this course unless both ECSE 478D1 and ECSE 478D2 are successfully completed in consecutive terms
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ECSE 478D2 Electrical Engineering Honours Thesis (3 credits) *
Overview
Electrical Engineering : See ECSE 478D1 for description.
Terms: Winter 2024
Instructors: Psaromiligkos, Ioannis; Kanaan, Marwan (Winter)
Prerequisite: ECSE 478D1
No credit will be given for this course unless both ECSE 478D1 and ECSE 478D2 are successfully completed in consecutive terms
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MECH 403D1 Thesis (Honours) (3 credits) *
Overview
Mechanical Engineering : This course, together with MECH 404, involves a research project containing both engineering theory and design components, and requiring a theoretical and/or experimental investigation. Students are supervised by the course instructor and mentored by one or more staff members. The work culminates with the submission of a thesis.
Terms: Fall 2023
Instructors: Timofeev, Evgeny (Fall)
(0-6-12)
Prerequisite: A minimum of 60 program credits.
Students must register for both MECH 403D1 and MECH 403D2.
No credit will be given for this course unless both MECH 403D1 and MECH 403D2 are successfully completed in consecutive terms
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MECH 403D2 Thesis (Honours) (3 credits) *
Overview
Mechanical Engineering : See MECH 403D1 for course description.
Terms: Winter 2024
Instructors: Timofeev, Evgeny (Winter)
Prerequisite: MECH 403D1
No credit will be given for this course unless both MECH 403D1 and MECH 403D2 are successfully completed in consecutive terms
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MECH 463D1 Design 3: Mechanical Engineering Project (3 credits) *
Overview
Mechanical Engineering : Team project work typically involving the design, fabrication, verification, and application of a mechanical device/system, or experimental facility. The project work is complemented with lectures in the Fall term on topics related to design and management of design projects. Emphasis is on the completion of a project of professional quality.
Terms: Fall 2023
Instructors: Mongrain, Rosaire; Sabih, Amar (Fall)
(1-3-5)
Students must register for both MECH 463D1 and MECH 463D2.
No credit will be given for this course unless both MECH 463D1 and MECH 463D2 are successfully completed in consecutive terms
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MECH 463D2 Design 3: Mechanical Engineering Project (3 credits) *
Overview
Mechanical Engineering : See MECH 463D1 for course description.
Terms: Winter 2024
Instructors: Mongrain, Rosaire; Sabih, Amar (Winter)
Prerequisites: MECH 463D1, (CCOM 206 or WCOM 206) and MECH 393.
No credit will be given for this course unless both MECH 463D1 and MECH 463D2 are successfully completed in consecutive terms
* An aerospace engineering project or honours thesis will be defined for students enrolled in the Minor and approved by the Minor Adviser.
And
12 credits from one of the following streams:
Students may take one complementary course outside of their stream, but their selection must be approved by the Minor Adviser prior to the registration for the course.
Aerodynamics and Propulsion Stream
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MECH 447 Combustion (3 credits)
Overview
Mechanical Engineering : Equilibrium analysis of reacting systems, Hugoniot analysis, flame propagation mechanisms, introduction to chemical kinetics, models for laminar flame propagation, ignition, quenching, flammability limits, turbulent flames, flame instability mechanisms, detonations, solid and liquid combustion.
Terms: Fall 2023
Instructors: Bergthorson, Jeffrey (Fall)
(3-0-6)
Prerequisite: MECH 240
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MECH 516 Computational Gasdynamics (3 credits)
Overview
Mechanical Engineering : Fundamentals of computational fluid dynamics. Numerical methods for hyperbolic conservation laws: first- and higher-order upwind schemes; monotonicity and Godunov theorem; total-variation-diminishing schemes; Riemann solvers; treatment of source terms; multi-dimensional methods. Introduction to grid generation and adaptation. Methodology for the comparison of numerical and experimental results.
Terms: Winter 2024
Instructors: Timofeev, Evgeny (Winter)
(3-0-6)
Prerequisite(s): MECH 430 or permission of instructor
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MECH 532 Aircraft Performance, Stability and Control (3 credits)
Overview
Mechanical Engineering : Aircraft performance criteria such as range, endurance, rate of climb, maximum ceiling for steady and accelerated flight. Landing and take-off distances. Static and dynamic stability in the longitudinal (stick-fixed and stick-free) and coupled lateral and directional modes. Control response for all three modes.
Terms: Fall 2023
Instructors: Liesk, Torsten (Fall)
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MECH 533 Subsonic Aerodynamics (3 credits)
Overview
Mechanical Engineering : Kinematics: equations of motion; vorticity and circulation, conformal mapping and flow round simple bodies. Two-dimensional flow round aerofoils. Three-dimensional flows; high and low aspect-ratio wings; airscrews. Wind tunnel interference. Similarity rules for subsonic irrotational flows.
Terms: Fall 2023
Instructors: Dawkins, Ivo (Fall)
(3-1-5)
Prerequisite (Undergraduate): MECH 331
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MECH 535 Turbomachinery and Propulsion (3 credits)
Overview
Mechanical Engineering : Introduction to propulsion: turboprops, turbofans and turbojets. Review of thermodynamic cycles. Euler turbine equation. Velocity triangles. Axial-flow compressors and pumps. Centrifugal compressors and pumps. Axial-flow turbines. Loss mechanisms. Dimensional analysis of turbomachines. Performance maps. 3-D effects. Introduction to numerical methods in turbomachines. Prediction of performance of gas turbines.
Terms: Fall 2023
Instructors: Habashi, Wagdi George (Fall)
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MECH 539 Computational Aerodynamics (3 credits)
Overview
Mechanical Engineering : Fundamental equations. Basic flow singularities. Boundary element methods. Source, doublet and vortex panel methods for 2D and 3D incompressible and compressible flows. Method of characteristics. Euler equations for inviscid rotational flows. Finite-difference and finite-volume methods. Explicit and implicit time-integration methods. Quasi 1D solutions. Nozzle and confined aerofoil applications.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 562 Advanced Fluid Mechanics (3 credits)
Overview
Mechanical Engineering : Conservation laws, control volume analysis, Navier stokes equations, dimensional analysis and limiting forms of N-S equation, laminar viscous flows, boundary layer theory, inviscid potential flows, lift and drag, introduction to turbulence.
Terms: Winter 2024
Instructors: Lee, Timothy (Winter)
(3-0-6)
Prerequisite: MATH 271 or permission of instructor.
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MECH 566 Fluid-Structure Interactions (3 credits)
Overview
Mechanical Engineering : Pipes and cylindrical shells containing flow: fundamentals and applications in ocean mining, Coriolis mass-flow meters, heat exchangers, nuclear reactors and aircraft engines; chaos. Cylinders in axial flow and in cross-flow; vortex-shedding and galloping. Cylinder arrays in cross-flow; fluidelastic instabilities. Ovalling of chimneys.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 579 Multidisciplinary Design Optimization (3 credits)
Overview
Mechanical Engineering : A comprehensive introduction to important algorithms in sensitivity analysis and multidisciplinary design optimization of large systems. Topics include: unconstrained and constrained optimization, sensitivity analysis, gradient-free optimization, multi-objective optimization, and various multidisciplinary algorithms and approaches for design optimization.
Terms: Winter 2024
Instructors: Nadarajah, Sivakumaran (Winter)
(3-0-6)
Prerequisite(s): MECH 309
Aircraft Structures Stream
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MECH 530 Mechanics of Composite Materials (3 credits)
Overview
Mechanical Engineering : Fiber-reinforced composites. Stress, strain, and strength of composite laminates and honeycomb structures. Failure modes and failure criteria. Environmental effects. Manufacturing processes. Design of composite structures. Computer modelling of composites. Computer techniques are utilized throughout the course.
Terms: Fall 2023
Instructors: Lessard, Larry (Fall)
(3-0-6)
Corequisite: MECH 321 or equivalent/instructor's permission.
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MECH 536 Aerospace
Structures (3 credits)
Overview
Mechanical Engineering : Aircraft and spacecraft structural components and loads. Bending, shear, torsion and buckling of thin-walled open and closed sections. Structural idealization. Principle of stiffener / web construction. Trusses and isogrid structures. Wing spars and box beams. Fuselage frames and wing ribs. Analysis of riveted, bolted and adhesive joints. Sandwich structures analysis. Thermoelasticity analysis for spacecraft structures.
Terms: Winter 2024
Instructors: Mruczek, Christopher (Winter)
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MECH 543 Design with Composite Materials (3 credits)
Overview
Mechanical Engineering : Material systems/selection process. Cost vs. performance. Laminate layup procedures. Theory and application of filament winding of composite cylinders. Regular oven and autoclave oven curing, analysis of resulting material performance. Practical design considerations and tooling. Analysis of environmental considerations. Joining techniques. Analysis of test methods. Theory of repair techniques.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
(3-3-3)
Prerequisite: MECH 530
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MECH 544 Processing of Composite Materials (3 credits)
Overview
Mechanical Engineering : Composite processing science basic principles. Reinforcement properties; permeability, compaction. Resin properties; curing, viscosity, shrinkage. Heat transfer and cure kinetics; cure cycle optimization. Resin flow; infusion, thickness variations, fiber volume fraction distribution. Residual stresses; tool-part interaction, warpage control, spring-back, tool design. Thermoplastic composites; crystallization control, melting and consolidation.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
(3-0-6)
Prerequisite: MECH 530 or permission of instructor.
Restriction: This course requires the use of a finite element software, so experience with finite elements is recommended.
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MECH 546 Finite Element Methods in Solid Mechanics (3 credits)
Overview
Mechanical Engineering : Discrete systems; variational formulation and approximation for continuous systems; direct and variational methods of element formulation in 1- 2- and 3 dimensions; formulation of isoparametric finite elements; plate and shell elements; finite element method for static analysis, vibration analysis and structural dynamics; introduction to nonlinear problems.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
-
MECH 550 Vibrations of Continuous Systems (3 credits)
Overview
Mechanical Engineering : Introduction to continuous systems. Discretization methods. Vibrations of Euler-Bernoulli and Timoshenko beams. Boundary conditions, intermediate supports and penalty method. Strain-displacement relationships for plates/shells. Vibrations of plates and shells. Sloshing and added mass. Effect of geometric imperfections and thermal loads. Introduction to nonlinear dynamics and stability. Introduction to experimental techniques.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 551 Nonlinear Dynamics of Shell Structures (3 credits)
Overview
Mechanical Engineering : Introduction to nonlinear dynamics and stability; softening and hardening systems; bifurcations; Lyapunov exponents; nonlinear strain-displacement relationships; Lagrangian description; plates and shells; nonlinear vibrations of plates and shells; reduced-order models; stability of shells with cardiovascular application; supersonic flutter of circular cylindrical shells (rockets).
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 567 Structural Dynamics of Turbomachines (3 credits)
Overview
Mechanical Engineering : Fundamentals of turbomachines from the standpoint of structural dynamics and vibration analysis, with preference given to aerospace applications involving aircraft and helicopter engines. Topics include: introduction to the finite element method, aircraft/helicopter engines architecture and main components, general equations of motion in rotordynamics, advanced modal analysis, Campbell diagrams and critical rotational velocity, mistuning and cyclic symmetry, fluid-structure coupling, flutter analysis, high-cycle fatigue.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MIME 560 Joining Processes (3 credits)
Overview
Mining & Materials Engineering : Physics of joining; interfacial requirements; energy sources, chemical, mechanical and electrical; homogeneous hot-joining, arc-, Mig-, Tig-, gas-, thermite- and Plasma-welding; Autogeneous hot-joining, forge-, pressure-, friction-, explosive-, electron beam- and laser-welding; Heterogeneous hot-joining, brazing, soldering, diffusion bonding; Heterogeneous cold joining, adhesives, mechanical fastening; Filler materials; Joint metallurgy; Heat affected zone, non-metallic systems; joint design and economics; defects and testing methods.
Terms: Winter 2024
Instructors: Brochu, Mathieu (Winter)
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MIME 565 Aerospace Metallic-Materials and Manufacturing Processes (3 credits)
Overview
Mining & Materials Engineering : Integrated approach to aerospace materials, manufacturing and repair; materials and selection criteria for airframe, engines and coatings; repair concepts and technologies; application of new and emerging manufacturing technologies for the forming, joining and repair of aerospace products.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
Spacecraft and Systems Stream
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GEOG 308 Remote Sensing for Earth Observation (3 credits)
Overview
Geography : A conceptual view of remote sensing and the underlying physical principles. Covers ground-based, aerial, satellite systems, and the electromagnetic spectrum, from visible to microwave. Emphasis on application of remotely sensed data in geography including land cover change and ecological processes.
Terms: Fall 2023
Instructors: Kalacska, Margaret (Fall)
Fall
3 hours and laboratory periods
Corequisite: GEOG 201 or permission of instructor
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MECH 513 Control Systems (3 credits)
Overview
Mechanical Engineering : State-space modelling and related linear algebra. Controllability and observability of linear time-invariant systems and corresponding tests, system realizations. Stability: Bounded-Input-Bounded-Output (BIBO), internal, Lyapunov. Linear state feedback control: pole placement and root locus design methods, linear quadratic regulator. State observers: full- and reduced-order designs, separation principle, Linear Quadratic Gaussian (LQG) design. Introduction to optimal control and optimal state estimation.
Terms: Winter 2024
Instructors: Forbes, James (Winter)
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MECH 536 Aerospace
Structures (3 credits)
Overview
Mechanical Engineering : Aircraft and spacecraft structural components and loads. Bending, shear, torsion and buckling of thin-walled open and closed sections. Structural idealization. Principle of stiffener / web construction. Trusses and isogrid structures. Wing spars and box beams. Fuselage frames and wing ribs. Analysis of riveted, bolted and adhesive joints. Sandwich structures analysis. Thermoelasticity analysis for spacecraft structures.
Terms: Winter 2024
Instructors: Mruczek, Christopher (Winter)
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MECH 542 Spacecraft Dynamics (3 credits)
Overview
Mechanical Engineering : Review of central force motion; Hohmann and other coplanar transfers, rotation of the orbital plane, patched conic method. Orbital perturbations due to the earth's oblateness, solar-lunar attraction, solar radiation pressure and atmospheric drag. Attitude dynamics of a rigid spacecraft; attitude stabilization and control; attitude manoeuvers; large space structures.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 546 Finite Element Methods in Solid Mechanics (3 credits)
Overview
Mechanical Engineering : Discrete systems; variational formulation and approximation for continuous systems; direct and variational methods of element formulation in 1- 2- and 3 dimensions; formulation of isoparametric finite elements; plate and shell elements; finite element method for static analysis, vibration analysis and structural dynamics; introduction to nonlinear problems.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
-
MECH 550 Vibrations of Continuous Systems (3 credits)
Overview
Mechanical Engineering : Introduction to continuous systems. Discretization methods. Vibrations of Euler-Bernoulli and Timoshenko beams. Boundary conditions, intermediate supports and penalty method. Strain-displacement relationships for plates/shells. Vibrations of plates and shells. Sloshing and added mass. Effect of geometric imperfections and thermal loads. Introduction to nonlinear dynamics and stability. Introduction to experimental techniques.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MECH 559 Engineering Systems Optimization (3 credits)
Overview
Mechanical Engineering : Introduction to systems-oriented engineering design optimization. Emphasis on i) understanding and representing engineering systems and their structure, ii) obtaining, developing, and managing adequate computational (physics- and data-based) models for their analysis, iii) constructing appropriate design models for their synthesis, and iv) applying suitable algorithms for their numerical optimization while accounting for systems integration issues. Advanced topics such as coordination of distributed problems and non-deterministic design optimization methods.
Terms: Winter 2024
Instructors: Kokkolaras, Michael (Winter)
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MIME 565 Aerospace Metallic-Materials and Manufacturing Processes (3 credits)
Overview
Mining & Materials Engineering : Integrated approach to aerospace materials, manufacturing and repair; materials and selection criteria for airframe, engines and coatings; repair concepts and technologies; application of new and emerging manufacturing technologies for the forming, joining and repair of aerospace products.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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PHYS 320 Introductory
Astrophysics (3 credits)
Overview
Physics : A survey of astrophysics ranging from stars and planets, to compact objects, galaxies, and the large-scale evolution of the Universe. A calculusbased course, with a focus on simple mathematical derivations that capture the essential physics.
Terms: Fall 2023
Instructors: Schutz, Katelin (Fall)
Material and Processes Stream
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CHEE 515 Interface Design: Biomimetic Approach (3 credits) *
Overview
Chemical Engineering : Investigation of the factors that cause biological surfaces to have superb functionalities; chemical and physical concepts responsible for the respective interfacial phenomena, such as surface tension, thermodynamics, kinetics, electrical double layers, surface wetting, adhesion and structural coloration; comparison of nature's solutions to engineering problems with synthetic approaches.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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CHEE 541 Electrochemical Engineering (3 credits)
Overview
Chemical Engineering : Electrochemical systems: electrodes, reactors. Electrochemical stoichiometry, thermodynamics and kinetics. Mass and charge transport. Current and potential distribution in an electrochemical reactor. Electrocatalysis. Fuel cells technology. Batteries. Industrial electrochemical processes. Electrochemical sensors. Biomedical electrochemistry. Passivity, corrosion and corrosion prevention. Electrocrystalization. Experimental Methods.
Terms: Fall 2023
Instructors: Omanovic, Sasha (Fall)
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CHEE 543 Plasma Engineering (3 credits)
Overview
Chemical Engineering : Description of the plasma state and parameters, plasma generation methods, and of the related process control and instrumentation. Electrical breakdown in gases and a series of discharge models are covered. Plasma processing applications such as PVD, PECVD, plasma polymerisation and etching, environmental applications, nanoparticle synthesis, spraying and sterilization are treated.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
-
MECH 544 Processing of Composite Materials (3 credits)
Overview
Mechanical Engineering : Composite processing science basic principles. Reinforcement properties; permeability, compaction. Resin properties; curing, viscosity, shrinkage. Heat transfer and cure kinetics; cure cycle optimization. Resin flow; infusion, thickness variations, fiber volume fraction distribution. Residual stresses; tool-part interaction, warpage control, spring-back, tool design. Thermoplastic composites; crystallization control, melting and consolidation.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
(3-0-6)
Prerequisite: MECH 530 or permission of instructor.
Restriction: This course requires the use of a finite element software, so experience with finite elements is recommended.
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MIME 512 Corrosion and Degradation of Materials (3 credits)
Overview
Mining & Materials Engineering : Electrochemical theory of metal corrosion, Evans Diagrams, corrosion rate controlling mechanisms, mixed corrodents, alloying effects, passivation. Discussion and analysis of the various forms of corrosion. Corrosion prevention methods. Oxidation of alloys-mechanisms and kinetics. Degradation of ceramics and polymers. Case studies.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MIME 515 (Bio)material Surface Analysis and Modification (3 credits) *
Overview
Mining & Materials Engineering : Material surface properties and how they affect their real-world applications, with emphasis on biologically relevant applications. Material surface modification techniques. Material surface characterization techniques.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MIME 559 Aluminum Physical Metallurgy (3 credits)
Overview
Mining & Materials Engineering : Crystal structure, deformation characteristics, strengthening and softening mechanisms, hot and cold working. Microstructure property relationships in aluminum alloys. Physical metallurgy of aluminum casting alloys and their uses. Properties, and physical metallurgy of aluminum wrought alloys and their industrial applications.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
-
MIME 560 Joining Processes (3 credits)
Overview
Mining & Materials Engineering : Physics of joining; interfacial requirements; energy sources, chemical, mechanical and electrical; homogeneous hot-joining, arc-, Mig-, Tig-, gas-, thermite- and Plasma-welding; Autogeneous hot-joining, forge-, pressure-, friction-, explosive-, electron beam- and laser-welding; Heterogeneous hot-joining, brazing, soldering, diffusion bonding; Heterogeneous cold joining, adhesives, mechanical fastening; Filler materials; Joint metallurgy; Heat affected zone, non-metallic systems; joint design and economics; defects and testing methods.
Terms: Winter 2024
Instructors: Brochu, Mathieu (Winter)
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MIME 563 Hot Deformation of Metals (3 credits)
Overview
Mining & Materials Engineering : High temperature deformation processing of metallic materials. Topics include static and dynamic recrystallization, recovery, precipitation; effect of deformation on phase transformations and microstructural evolution during industrial processing. Mathematical modelling of microstructural evolution.
Terms: Fall 2023
Instructors: Yue, Stephen (Fall)
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MIME 565 Aerospace Metallic-Materials and Manufacturing Processes (3 credits)
Overview
Mining & Materials Engineering : Integrated approach to aerospace materials, manufacturing and repair; materials and selection criteria for airframe, engines and coatings; repair concepts and technologies; application of new and emerging manufacturing technologies for the forming, joining and repair of aerospace products.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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MIME 571 Surface Engineering (3 credits)
Overview
Mining & Materials Engineering : Surface science. Surface characterization. Surface modification. Coatings and thin films. Tribology. Surface engineering and control of surface properties.
Terms: Winter 2024
Instructors: Chromik, Richard (Winter)
(3-0-6)
Prerequisite: MIME 362
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MIME 580 Additive Manufacturing Using Metallic and Ceramic Materials (3 credits)
Overview
Mining & Materials Engineering : Introduction to additive manufacturing, seven AM families, starting material characterization, powder bed and direct energy deposition processes, direct writing, fundamental of sintering and solidification, post-processing and issues, mechanical assessment and reliability, standards, design and topology optimization, industrial applications of AM.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
(3-0-6).
Prerequisite(s): MIME 465 or instructor permission.
* Students may choose only one of CHEE 515 or MIME 515.
Avionics Stream
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ECSE 403 Control (4 credits)
Overview
Electrical Engineering : Stability of linear and non-linear systems, controllability, state space models, canonical forms, state space design of controllers, pole placement, LQR, observability, Luenberger observer, separation principle and certainty equivalence, loop transfer recovery, correspondence between system theoretic results for continuous- and discrete-time systems. Lab work involving applications of PID, lead-lag, full state feedback and LQR controllers to robotic devices.
Terms: Fall 2023, Winter 2024
Instructors: Bouffard, François (Fall) Caines, Peter Edwin (Winter)
Prerequisite(s): ECSE 307
(3-4-5)
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ECSE 408 Communication Systems (4 credits)
Overview
Electrical Engineering : Communication system models; AM and FM modulation, performance of AM and FM systems in noise; sampling, FDM and TDM multiplexing systems; baseband and pass-band digital transmission over noisy band-limited channels, digital modulation and detection techniques and their quantitative performance; concepts of entropy and channel capacity, selected data compression and error-control coding techniques. Illustrative examples taken from subscriber loop telephone systems, evolution of internet modems and wireless cellular phone standards. Lab work involving measurement of the performance of AM and FM systems with noise, digital modulation techniques and spectra, experiments with basic error control coding systems.
Terms: Winter 2024
Instructors: Psaromiligkos, Ioannis (Winter)
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ECSE 412 Discrete Time Signal Processing (3 credits)
Overview
Electrical Engineering : Discrete-time signals and systems; Fourier and Z-transform analysis techniques, the discrete Fourier transform; elements of FIR and IIR filter design, filter structures; FFT techniques for high speed convolution; quantization effects.
Terms: Fall 2023
Instructors: Champagne, Benoit (Fall)
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ECSE 420 Parallel Computing (3 credits)
Overview
Electrical Engineering : Modern parallel computing architectures for shared memory, message passing and data parallel programming models. The design of cache coherent shared memory multiprocessors. Programming techniques for multithreaded, message passing and distributed systems. Use of modern programming languages and parallel programming libraries.
Terms: Fall 2023, Winter 2024
Instructors: Zilic, Zeljko (Fall) Giannacopoulos, Dennis (Winter)
(3-2-4)
Prerequisite: ECSE 427
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ECSE 421 Embedded Systems (3 credits)
Overview
Electrical Engineering : Definition, structure and properties of embedded systems. Real-time programming: interrupts, latency, context, re-entrancy, thread and process models. Microcontroller and DSP architectures, I/O systems, timing and event management. Real-time kernels and services. Techniques for development, debugging and verification. Techniques for limited resource environments. Networking for distributed systems.
Terms: Winter 2024
Instructors: Cooperstock, Jeremy (Winter)
(3-1-5)
Prerequisites: ECSE 324
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ECSE 422 Fault Tolerant Computing (3 credits)
Overview
Electrical Engineering : Introduction to fault-tolerant systems. Fault-tolerance techniques through hardware, software, information and time redundancy. Failure classification, failure semantics, failure masking. Exception handling: detection, recovery, masking and propagation, termination vs. resumption. Reliable storage, reliable communication. Process groups, synchronous and asynchronous group membership and broadcast services. Automatic redundancy management. Case studies.
Terms: Winter 2024
Instructors: Maheswaran, Muthucumaru (Winter)
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ECSE 425 Computer Architecture (3 credits)
Overview
Electrical Engineering : Trends in technology. CISC vs. RISC architectures. Pipelining. Instruction level parallelism. Data and Control Hazards. Static prediction. Exceptions. Dependencies. Loop level paralleism. Dynamic scheduling, branch prediction. Branch target buffers. Superscalar and N-issue machines. VLIW. ILP techniques. Cache analysis and design. Interleaved and virtual memory. TLB translations and caches.
Terms: Winter 2024
Instructors: Emad, Amin (Winter)
(3-1-5)
Prerequisites: ECSE 324
Tutorials assigned by instructor.
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ECSE 427 Operating Systems (3 credits)
Overview
Electrical Engineering : Operating system services, file system organization, disk and cpu scheduling, virtual memory management, concurrent processing and distributed systems, protection and security. Aspects of the DOS and UNIX operating systems and the C programming language. Programs that communicate between workstations across a network.
Terms: Fall 2023, Winter 2024
Instructors: Maheswaran, Muthucumaru (Fall) Campbell, Jonathan (Winter)
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ECSE 429 Software Validation (3 credits)
Overview
Electrical Engineering : Correct and complete implementation of software requirements. Verification and validation lifecycle. Requirements analysis, model based analysis, and design analysis. Unit and system testing, performance, risk management, software reuse. Ubiquitous computing.
Terms: Fall 2023, Winter 2024
Instructors: Sabourin, Robert (Fall) Sabourin, Robert (Winter)
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ECSE 444 Microprocessors (4 credits)
Overview
Electrical Engineering : Design techniques for developing modern microprocessor-based systems, multiple state-of-art instructions set architectures (ISAs) and associated assembly languages, use of tools for compiling, linking, memory overlay; debug techniques for start-stop and real-time debugging, together with debug infrastructure and interfaces: flash patching, variable watching and instruction stream tracing. Use of coprocessors and computer peripherals, such as SPI, I2C, I2S, SAI, USB, wireless standards, timers, DMA units and FLASH accelerators. Interfacing and processing sensor data including multi-sensor integration. Design techniques that promote structured approaches for separation of concerns in computing and communication. Real-time systems and software engineering for tightly integrated hardware.
Terms: Fall 2023, Winter 2024
Instructors: Meyer, Brett (Fall) Zilic, Zeljko (Winter)
Prerequisite(s): ECSE 324
(3-4-5)
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ECSE 465 Power Electronic Systems (3 credits)
Overview
Electrical Engineering : Introduction to power electronics: definition, applications and classification of converters. Review of analytical techniques. Overview of power semiconductor switches. Line communicated rectifiers and inverters. Switch mode power converters and modulation techniques. Choppers, inverters and rectifiers. Resonant mode converters. Application to power systems and energy conversion.
Terms: Fall 2023
Instructors: Bouffard, François (Fall)
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ECSE 501 Linear Systems (3 credits)
Overview
Electrical Engineering : Mathematical models of linear systems, fundamental solution and transition matrices, non-homogeneous linear equations, controllability and observability of linear systems, reachable subspaces, Cayley-Hamilton's Theorem, Kalman's controllability and observability rank conditions, minimal realizations, frequency response, invariant subspaces, finite and infinite horizon linear regulator problems, uniform, exponential, and input-output stability, the Lyapunov equation.
Terms: Fall 2023
Instructors: Caines, Peter Edwin (Fall)
(3-0-6)
Corequisite: ECSE 500 or permission of instructor
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ECSE 507 Optimization and Optimal Control (3 credits)
Overview
Electrical Engineering : General introduction to optimization methods including steepest descent, conjugate gradient, Newton algorithms. Generalized matrix inverses and the least squared error problem. Introduction to constrained optimality; convexity and duality; interior point methods. Introduction to dynamic optimization; existence theory, relaxed controls, the Pontryagin Maximum Principle. Sufficiency of the Maximum Principle.
Terms: Winter 2024
Instructors: Flynn, Joshua (Winter)
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ECSE 511 Introduction to Digital Communication (3 credits)
Overview
Electrical Engineering : Amplitude and angle modulation including AM, FM, FDM and television systems; introduction to random processes; sampling and quantization, PCM systems, TDM; digital modulation techniques, Maximum-Likelihood receivers, synchronization issues; elements of information theory including information sources, source coding and channel capacity.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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ECSE 512 Digital Signal Processing 1 (3 credits)
Overview
Electrical Engineering : Review of discrete-time transforms, sampling and quantization, frequency analysis. Structures for IIR and FIR filters, coefficient quantization, roundoff noise. The DFT, its properties, frequency analysis and filtering using DFT methods, the FFT and its implementation. Multirate processing, subsampling and interpolation, oversampling techniques.
Terms: Fall 2023
Instructors: Champagne, Benoit (Fall)
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ECSE 513 Robust Control Systems (3 credits)
Overview
Electrical Engineering : Feedback interconnections of LTI systems; Nominal stability and performance of feedback control systems; Norms of signals and systems; H2-optimal control; H-infinity-optimal control; Uncertainty modelling for robust control; Robust closed-loop stability and performance; Robust H-infinity control; Robustness check using mu-analysis; Robust controller design via mu-synthesis.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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ECSE 516 Nonlinear and Hybrid Control Systems (3 credits)
Overview
Electrical Engineering : Examples of hybrid control systems (HCS). Review of nonlinear system state, controllability, observability, stability. HCS specified via ODEs and automata. Continuous and discrete states and dynamics; controlled and autonomous discrete state switching. HCS stability via Lyapunov theory and LaSalle Invariance Principle. Hybrid Maximum Principle and Hybrid Dynamic Programming; computational algorithms.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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ECSE 524 Interconnects and Signal Integrity (3 credits)
Overview
Electrical Engineering : Interconnect structures, signal integrity issues: reflection, crosstalk, noise, electromagnetic interference, Lossy transmission lines, RLGC matrix representations, wave propagation in multilayered substrates, periodically loaded lines, Floquet's theorem, power distribution network, simultaneous switching noise, packaging structures, chip interconnection technologies, substrate integrated waveguides, methods for experimental characterization of interconnects, signal integrity CAD tools.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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ECSE 565 Introduction to Power Electronics (3 credits)
Overview
Electrical Engineering : Semiconductor power switches - thyristors, GTO's, bipolar transistors, MOSFET's. Switch mode power amplifiers. Buck and boost principles. Modulation methods -PWM, delta, hysteresis current control. Rectifiers, inverters, choppers.
Terms: This course is not scheduled for the 2023-2024 academic year.
Instructors: There are no professors associated with this course for the 2023-2024 academic year.
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ECSE 593 Antennas and
Propagation.
(3 credits)
Overview
Electrical Engineering : Fundamentals of antenna theory: sources, radiation pattern and gain. Classification of antennas. Main antenna types and their characteristics. Antenna temperature, remote sensing and radar cross-section. Self and mutual impedances. Special topics include adaptive antennas, very large array (VLA) used in radio astronomy and biomedical applications.
Terms: Fall 2023
Instructors: Popovich, Milica (Fall)