EECE_V 500 (3) Introduction to the Academic Enterprise
Prerequisite: Enrolment in the PhD degree program in ECE. This course is not eligible for Credit/D/Fail grading.
Prerequisite: Enrolment in the PhD degree program in ECE. This course is not eligible for Credit/D/Fail grading.
[3-0-0] This course is not eligible for Credit/D/Fail grading.
Prerequisite: by permission of the instructor. This course is not eligible for Credit/D/Fail grading.
Strategic frameworks. Organizational change. Team dynamics, effectiveness, and decision-making. Personal leadership style and development. This course is not eligible for Credit/D/Fail grading.
Equivalency: MECH524 This course is not eligible for Credit/D/Fail grading.
Equivalency: MECH525 This course is not eligible for Credit/D/Fail grading.
Theoretical and practical issues in designing multimedia systems. Interactive multimedia, digital video broadcasting and streaming, media asset management, video indexing and retrieval, content protection, and design of multimedia middleware. This course is not eligible for Credit/D/Fail grading.
Numerical aspects of time-domain simulation are reviewed. Dynamic modelling and analysis of power systems components including transformers, induction and synchronous machines, inverters, electric drives and associated controls. This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
Computer-oriented analysis of electric power systems with regard to multiphase line constants, steady-state analysis of single and parallel circuits, lightning and switching surges; large-scale solution of power-flow problems; optimal real and reactive power flow. This course is not eligible for Credit/D/Fail grading.
Synchronous machine modelling; excitation and speed governor systems; enhancing power system damping through excitation or governor control; linear optimal stabilization of power systems; load shedding, generator dropping and other emergency measures; asynchronous operation and resynchronization; nonlinear stability; power-frequency control. This course is not eligible for Credit/D/Fail grading.
Credit will be granted for only one of EECE 555 or ELEC 352. This course is not eligible for Credit/D/Fail grading.
Solution of lumped and distributed networks. Time-domain solutions, discretization and integration rules. Frequency-domain solutions, FFT and windowing techniques. Systems of linear equations, reduction and sparsity techniques. Nonlinear elements. Computer-aided simulation. This course is not eligible for Credit/D/Fail grading.
Photovoltaic, wind, small hydro and fuel cell systems for stand alone and grid connected use. This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
[3-0-0] This course is not eligible for Credit/D/Fail grading.
Analysis and design of communications networks; network architectures; Internet protocols; routing; scheduling algorithms; medium access control; congestion control; admission control; optimization techniques; network management. This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
[3-0-0] This course is not eligible for Credit/D/Fail grading.
Network architectures: cellular networks, ad hoc networks; access protocols; radio and network resource management; quality of service; mobility and location management; routing; mobile-IP; current wireless technologies for personal, local and satellite networks. This course is not eligible for Credit/D/Fail grading.
Computational and mathematical methods for data driven processing and model-based analysis of digital images and other visual data: perception, capture; representation, modelling; enhancement, restoration; registration, fusion; feature extraction, segmentation; recognition; practical applications. This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
Project-based modelling techniques applied to microsystems; multi-physics at microscale; physical limitations in MEMS; interface with electronics; behavioural modelling languages for mixed analog-digital system design. This course is not eligible for Credit/D/Fail grading.
History of electromagnetic compatibility; standards and regulations; component models; radiated emissions; conducted emissions; transmission lines and cross-talk; shielding; electrostatic discharge; EMC system design. [2-3*-0] This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
This course is not eligible for Credit/D/Fail grading.
For M.A.Sc. This course is not eligible for Credit/D/Fail grading.
For Ph.D. This course is not eligible for Credit/D/Fail grading.