Ece uwaterloo
Exposure to concepts from other Engineering plans.
Electrical and computer engineers shape the future through innovation. They develop and improve systems that serve everyday needs of society spanning from high-voltage engineering and sustainable energy, to breakthroughs in wireless technology. Our faculty and students do everything from creating low-cost digital x-ray imagers to combat tuberculosis in developing countries, to building real-time embedded systems to advance the design and reliability of commercial products. ECE - the future is what we do. The Department of Electrical and Computer Engineering is a dynamic and innovative hub of cutting-edge advancements in technology and engineering. Faculty members lead pioneering research in areas such as robotics, artificial intelligence, communications, embedded systems, and renewable energy, addressing real-world challenges and driving technological breakthroughs.
Ece uwaterloo
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Special Topics in Electrical and Computer Engineering. Magnetostatic: magnetic force, magnetic fields, Ampere's Law.
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The Department of Electrical and Computer Engineering ECE is founded on leading engineering education and research, a world-renowned co-operative study program, and a bold history of innovation. Waterloo Engineering is ranked among the top 50 engineering schools in the world; our ECE department is committed to sustaining that excellence in our areas of research while venturing into growing areas of opportunity. We attract the best and brightest students and faculty from around the globe, and our graduates are recruited worldwide by leading engineering firms, corporations, government agencies, and research-intensive universities. Our curriculum provides students with rigorous foundations in math and physics while exposing them to exciting applications early on in their program. Learn from top experts in your field of specialization. You will benefit from learning and working with some of Canada's best-equipped research facilities. Our department is home to faculty members who demonstrate the highest standards of excellence in their research, scholarship, and contributions to their field.
Ece uwaterloo
ECE improves systems with creative solutions for the needs of society spanning from communications to energy and technology. This section provides information about the ECE program and how to apply. Whether you're a first-year student, or about to graduate, this section of our website provides all the important resources and information needed for personal and academic success. We offer a number of options to help you fund your studies and to reward entering and current students for their successes. The Electrical and Computer Engineering program gives you a solid technical background for many engineering fields. Skip to main content. Undergraduate students.
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Proof theory. Other applications of thermodynamics. Thin films by chemical and physical vapor deposition. Faults and testability. Model theory. Topics include stationary states of particle-in-a-box, harmonic oscillator and the hydrogen atom. Introduces students to systematic testing of software systems. Our faculty and students do everything from creating low-cost digital x-ray imagers to combat tuberculosis in developing countries, to building real-time embedded systems to advance the design and reliability of commercial products. Collections of random variables, joint and marginal probability distributions, and correlation. Software security, vulnerabilities, threats, defenses and secure-software development processes. Topics include engineering design, safety, risk analysis, engineering data analysis, project management, sustainability, business, entrepreneurship, and intellectual property. Evolution of designs and implementations. Hardware description languages. Antireq: ECE Amplitude and angle modulation, generation and detection schemes.
Our modern world is built on electricity.
CMOS logic circuits. Kinetic theory of gases. Quantization of angular momentum and spin. Process techniques for nanoelectronic devices. Autonomous driving system overview; computer vision basics, deep learning for perception, motion modelling and state estimation, localization and mapping, object tracking, behavioral planning and reinforcement learning, path planning and vehicle control, safety and verification and validation, adoption and impact. The performance of single and multiple transistor amplifying stages are studied. This course requires a two-page report where students reflect on the experience gained during the fourth co-op term. Introduces students to the design, implementation, and evolution phases of software development. Number systems, errors and error propagation. Dynamic system modelling: linear, nonlinear, state-space, sample data systems, computer simulation, system identification. Fundamentals of power systems, analysis techniques including power flow and symmetrical fault analyses, and the basics of distribution systems and smart grids. Interpolation and numerical integration. Introduction to electrical and computer engineering with an emphasis on the profession of engineering, and engineering design.
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