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Course Criteria
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4.00 Credits
Prerequisites: C or better in ECE 323 and C or better in ECE 424. Design of computer systems as components of larger engineering systems. Emphasis is on real-time applications. Integration of high-level and low-level software components in a realtime environment. The course will emphasize applications which involve hard deadlines for real-time data handling and real-time control of physical systems with a significant lab component.
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3.00 Credits
Prerequisite: C or better in ECE 202. Fundamentals of signal processing in both analog and digital domains, emphasizing the relationships between the two. Review of Fourier analysis and Bode plot. Analog filter design techniques: Butterworth, Chebyshev, and elliptic; implementation of analog filters using active circuits. Sampling and mapping of analog frequency to digital frequency. Basic topics in digital signal processing: difference equations, impulse response, z transform, IIR and FIR digital filters, discrete-time frequency response.
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3.00 Credits
Prerequisite: C or better in ECE 431. Z-transform, design of frequency-selective digital filters (Butterworth, Chebyshev, and elliptic), filter structures, transient and steady-state response of filters, DFT, FFT, windowing effects, frequency resolution. Use of Matlab and Simulink to implement and analyze digital filters.
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3.00 Credits
Prerequisite: C or better in ECE 431 or consent of the instructor. Mathematics and techniques for common methods of both lossless and lossy compression of digital data: compression of one-dimensional and two-dimensional signals; Huffman and Tunstall codes; quantization; predictive coding; transform coding; sub-band coding.
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3.00 Credits
Prerequisite: C or better in ECE 341. Introduction to optics and optical systems as applied to modern engineering problems. Principles and applications of fiber optic communication systems. Optical communications channel design. Fiber optic sensing. Optic fiber waveguides. Traveling-wave amplification and optical resonators (Lasers).
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3.00 Credits
Prerequisite: C or better in ECE 340. Design of electronic systems to prevent interference and to satisfy governmental regulations on radiated and conducted emissions. Interference scenarios, EMC requirements on electronic systems, non-ideal behavior of components, signal spectra, radiated emissions, conducted emissions, crosstalk, shielding.
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3.00 Credits
Prerequisite: C or better in ECE 340. Introduction to the theory and applications of antennas. Antenna fundamentals, patterns, directivity, gain, impedance, polarization. Electrically small dipoles and loops, arrays, line sources, resonant antennas, and broadband antennas.
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3.00 Credits
Prerequisite: C or better in ECE 340. Advanced study of transmission line theory in the design of high-frequency analog and highspeed digital system. Emphasis on electrically-long lines. Signal integrity in high-speed digital interconnects, crosstalk in multi-conductor transmission lines. Extensive use of computer simulation tools.
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3.00 Credits
Prerequisites: C or better in ECE 202, EGR 252. Corequisite: ECE 451L. Review of Fourier analysis, linear channels, and linear distortion, linear modulation schemes, DSBTC, DSBSC , SSB, VSB, frequency and phase modulation, radio broadcasting, discrete probability, random variables, probability distribution functions, expected values and correlation.
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1.00 Credits
Corequisite: ECE 451. Software and hardware tools for communication/telecommunication systems experimentation and design, RF system design for communications, simulation of complex communication links.
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