Subject | Code | Academic Year | Course Title | Description |
---|---|---|---|---|
CS | 231A | 2023-2024 | Computer Vision: From 3D Perception to 3D Reconstruction and Beyond |
(Formerly 223B) An introduction to the concepts and applications in computer vision. |
Challenges and Opportunities in Developing Materials for Lithium-Ion Batteries with William Chueh |
High energy density and long-lasting lithium-ion batteries are key toward the next-generation electric vehicles. |
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STS | 165N | 2014-2015 | Cars: Past, Present, and Future |
(Formerly COMM 165N.) Preference to freshmen. Focus is on the past, present and future of the automobile, bridging the humanities, social sciences, design, and engineering. |
SURG | 72Q | 2014-2015 | Anatomy in Society |
Preference to sophomores. |
ME | 140 | 2014-2015 | Advanced Thermal Systems |
Capstone course. Thermal analysis and engineering emphasizing integrating heat transfer, fluid mechanics, and thermodynamics into a unified approach to treating complex systems. |
ME | 216A | 2014-2015 | Advanced Product Design: Needfinding |
Human needs that lead to the conceptualization of future products, environments, systems, and services. |
ME | 216C | 2014-2015 | Advanced Product Design: Implementation 2 |
ME216C: Implementation II is a continuation of ME216B. Students would develop project from ME216B to a further state of completion. |
ME | 216B | 2014-2015 | Advanced Product Design: Implementation 1 |
Summary project using knowledge, methodology, and skills obtained in Product Design major. Students implement an original design concept and present it to a professional jury. |
ME | 312 | 2014-2015 | Advanced Product Design: Formgiving |
Lecture/lab. Small- and medium- scale design projects carried to a high degree of aesthetic refinement. Emphasis is on form development, design process, and model making. |
AA | 212 | 2023-2024 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2022-2023 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2021-2022 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2020-2021 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2019-2020 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2018-2019 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2017-2018 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |
AA | 212 | 2016-2017 | Advanced Feedback Control Design |
Analysis and design techniques for multivariable feedback systems. State-space concepts, observability, controllability, eigenvalues, eigenvectors, stability, and canonical representations. |