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Course Criteria
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1.00 Credits
Carroll and Staff Experiments in support of control theory, involving the use of the digital computer for process control in real time. Design of feedback and compensation with computer implementation. Digital simulation of linear and nonlinear systems. Prerequisite or corequisite: ECE 172. (Fall)
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3.00 Credits
Harrington and Staff Fundamentals of electromechanical energy conversion. Three-phase and single-phase AC rotating machines and transformers, DC machines, rotating machines as circuit elements, power semiconductor converters, machine dynamics. Prerequisite: ECE 12, 31. (Spring)
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3.00 Credits
Harrington and Staff Introduction to electrical power systems; transmission and distribution of electrical power, three-phase circuits, symmetrical components, fault analysis. Voltage, current, and power limitations. Analysis of lightning and switching surges in power systems. Protective devices-switchgear, arresters, and isolators. May be taken for graduate credit. (Fall)
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3.00 Credits
Subramaniam and Staff Structure and operation of a digital computer. Design of computer arithmetic units, data and instruction paths. Microprogramming; memory technology; virtual memory; caches; pipelined computer organization; characteristics of secondary storage; I/O interfacing. Prerequisite: ECE 162; corequisite: ECE 161. (Spring)
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3.00 Credits
El-Ghazawi and Staff Design of bus-based digital computer systems, memory subsystems, caches, and multiple processors. Comparison of RISC and CISC processors and standard buses. Bus transfer and control signals. Performance, memory management, architectural support for protection, task switching, exception handling, instruction pipelines. Prerequisite: ECE 181. (Fall)
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3.00 Credits
Loew and Staff Introduction to engineering principles applicable to medicine; medical measurements for clinical use and research; anatomy and physiology of the human body from system and cellular approaches; terminology of the medical profession. Concepts of biomedical engineering are reinforced by determining and analyzing physiological measurements in laboratory exercises. (Fall)
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3.00 Credits
Zara and Staff Common imaging modalities, including ultrasound, X-ray, MRI, CT, SPECT, and PET. Overview of linear systems, basic properties of an imaging system, the physics and instrumentation behind each modality, and their respective advantages, disadvantages, and applications. May be taken for graduate credit. Prerequisite: ECE 117, 184. (Spring)
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3.00 Credits
El-Ghazawi and Staff Shared and distributed memory computer systems. Parallel computation. Interprocess communication and synchronization. Terminal, file transfer, and message handling protocols. Algorithms for deadlock detection, concurrency control, and synchronization in distributed systems. Network security and privacy. Resource control and management. Prerequisite: ECE 181. (Spring)
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3.00 Credits
Carroll and Staff Modeling and analysis of robot designs. Kinematics of mechanical linkages, structures, actuators, transmissions, and sensors. Design of robot control systems, computer programming, and vision systems. Use of artificial intelligence. Current industrial applications and limitations of robotic systems. Same as MAE 197. Prerequisite: computer programming, ApSc 58, ECE 172. (Spring)
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1.00 Credits
Carroll and Staff Experiments illustrating basic principles and programming of robots and other automated machinery. Design and writing of computer programs to use a robot's arm, vision, and data files to accomplish tasks. Prerequisite or corequisite: ECE 192/MAE 197. (Spring)
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