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Course Criteria
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3.00 Credits
Analysis and design of continuous and discrete-time control systems; stability, signal flow, performance criteria, classical and state variable methods, simulation design tools, computerbased realizations. Prerequisite: 171. Credits: 3
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3.00 Credits
Introduction to computer vision systems for interactive and industrial applications using both hard/software computational approaches. Pre/ co-requisites: Math 124 or 271 and CS 26 or instructor's permission. Cross-listing: CS 212. Credits: 3
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3.00 Credits
Introduction to human computer interaction in the area of sensory intelligence with concentration to biofeedback, biometric analysis, human factor, wearable computing, mixed reality, and graphical user interfaces. Pre/ co-requisites: CS 26 and senior or graduate standing in engineering, math, or computer science, or instructor permission. Credits: 3
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3.00 Credits
Introduction to broad aspects on modern robotics, including industrial robotic hand, humanoid robot, personal robot, mobile robot, and entertainment robot. Pre/co-requisites: Senior or graduate standing in engineering, math, or computer science, or instructor permission. Credits: 3
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3.00 Credits
Design of VLSI circuits using a modular approach with industrial grade software: schematic capture; circuit design languages (HDL); full-custom layouts; mixed signals; synthesis. Laboratory. Pre/ Corequisites: EE 131, 163, 121. Credits: 3
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3.00 Credits
The design, layout, and simulation of VLSI analog circuits. Emphasis on small signal models and circuits used in operational amplifiers. Prerequisites: 163, 121, instructor's permission. Credits: 3
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3.00 Credits
Survey of VLSI design. Architecture and partitioning of functions. Design for testability. Simulation including timing. Synthesis. Design verification; manufacturing interface. Required team project and report. Prerequisite: 221 or instructor's permission. Credits: 3
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3.00 Credits
Biomedical and clinical engineering in research, industry, and health care institutions. Measurement techniques and instrumentation. Integrated biomedical monitoring, diagnostic, and therapeutic systems. Corequisites: 121, ANPS 20, instructor's permission. Alternate years. Credits: 3
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3.00 Credits
Sensor design, interrogation, and implementation. A wide variety of electrical, electronic, optical, mechanic, and cross-disciplinary devices. System designs, measurement techniques, and methodologies. Prerequisite: Senior standing in engineering or physics. Credits: 3
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3.00 Credits
Hardware organization and realization, hard-wired and microprogrammed control units, interrupt and I/O systems. Hardware design language introduced and used for computer design. Prerequisites: 131; either 134 or Computer Science 101. Credits: 3
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