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Course Criteria
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4.00 Credits
Design projects in communications. Frequent projects solved by student teams. Reports and presentations. 0 in E E 417 which may be taken concurrently.
Prerequisite:
1
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5.00 Credits
Design of analog circuits and systems applying modern integrated circuit technology: operational amplifiers, differential amplifiers, active filters, voltage references and regulators. 0 in E E 332.
Prerequisite:
1
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4.00 Credits
Introductory course in the application of instrumentation to medicine. Topics include transducers, signal-conditioning amplifiers, e rodes and electrochemistry, ultrasound systems, electrical safety, and the design of clinical electronics. included. For upper-division and first-year graduate students who are preparing for careers in bioengineeringboth research and industrial. Offered: jointly with BIOEN 436.
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4.00 Credits
Hwang Image representation and standards, visual perception and color spaces, spatial domain image filtering and enhancement, image restoration, image transforms, image and video coding, image geometrical transformation and camera modeling.
Prerequisite:
E E 341
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3.00 Credits
Methods and techniques for digital signal processing. Review of sampling theorems, A/D and D/A converters. Demodulation by quadrature sampling. Z-transform methods, system functions, linear shift-invariant systems, difference equations. Signal flow graphs for digital networks, canonical forms. Design of digital filters, practical considerations, IIR and FIR filters. Digital Fourier transforms and FFT techniques. 0 in E E 341.
Prerequisite:
1
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5.00 Credits
Application of learned theories/algorithms and avai e computer technologies to modern image and speech processing problems. Two-dimensional signals and systems. Image transform, enhancement, restoration, coding. Characteristics of speech signals, linear predictive coding (LPC) of speech, pitch detection, and LPC speech synthesis, speech recognition, hardware designs for signal processing. 0 in E E 442. Offered: Sp.
Prerequisite:
1
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4.00 Credits
Linear Servomechanism theory and design principles. Pole-zero analysis, stability of feedback systems by root locus and real-frequency response methods. Design methods of Bode and Nichols. Introduction to advanced topics in automatic control theory, state variable methods.
Prerequisite:
E E 233; E E 235
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3.00 Credits
Study of control systems components and mathematical models. Amplifiers, DC servomotors, reaction mass actuators. Accelerometers, potentiometers, shaft encoders and resolvers, proximity sensors, force transducers, piezoceramic materials, gyroscopes. Experimental determination of component models and model parameters. Two ratories per week. Offered: jointly with A A 448.
Prerequisite:
either A A 447 or E E 447
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4.00 Credits
Design problems for aerospace vehicles, systems with unstable dynamics, lightly damped modes, nonminimum phase, nonlinear dynamics. Computer-aided analysis, design, and simulation, with hardware-in-the-loop testing. Team design reviews, oral presentations. Offered: jointly with A A 449.
Prerequisite:
either A A 448 or E E 448
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5.00 Credits
Eronic conversion and control of electrical power. Includes semiconductor switching devices, power converter circuits, design of magnetics, and control of power converters. Also ac/ac, ac/dc, and dc/dc power converters; circuit simulation; extensive work a four-week power converter design project. 0 in E E 332; 1.0 in E E 351.
Prerequisite:
1
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