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Course Criteria
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3.00 Credits
3 Semester Hours This course provides the foundation of digital communication theory. Topics include representation of bandpass signals, frequency and phase shift keying, M-ary signal, detection in additive Gaussian noise channel, intersymbol interference, and effi cient signaling with coding. Prerequisites: ELEC 521 and 532.
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3.00 Credits
3 Semester Hours This course provides an introduction to the practical and theoretical analysis of the performance of satellite communications. Topics in link design, satellite orbit dynamics, antenna gain and coverage, frequency and time division multiple access, component and subsystem nonlinearity, signal format, and error correction coding will be discussed. Prerequisites: ELEC 521 and 532.
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3.00 Credits
3 Semester Hours Phase-lock loop concepts, stability, noise response, acquisition, frequency response and topics of applications in coherent communications such as PLL costas loop, byte synchronization will be discussed. Prerequisite: ELEC 532.
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3.00 Credits
3 Semester Hours The system performance and signal design of spread spectrum communication systems will be discussed. Topics addressed are frequency hopping and direct sequence systems and their performance in jamming and CDMA environments. ELEC 521, 532, and 624 are recommended.
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3.00 Credits
3 Semester Hours A course in numerical techniques of computing. Numerical techniques; errors in computing; generation of functions; roots of polynomials, integration techniques; solution of simultaneous linear equations; ordinary differential equations; partial differential equations. (Note: Same as MECH 604.)
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3.00 Credits
3 Semester Hours An introduction to the theory, analysis, and design of optimum signal processing systems in both discrete and continuous time. Topics include spectral factorization, least-meansquare theory and estimation algorithms, linear signal estimation, Wiener and Kalman fi ltering, linear prediction, spectral estimation, and matched fi ltering. Access to computer with MATLAB, Fortran, Pascal, or other high level language compiler for assignments is required. Prerequisite: ELEC 532.
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3.00 Credits
3 Semester Hours This course presents the analytical basis for fi beroptic and laser communication systems. Prerequisites: ELEC 521 and 532.
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3.00 Credits
3 Semester Hours Theory and design aspects of analog electronic circuits as applied to the generation, amplifi cation, detection, transmission, and modulation of electrical signals will be discussed. Prerequisite: Undergraduate electronics course.
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3.00 Credits
3 Semester Hours Topics in computer-aided design of analog VLSI systems. Topics include: custom and semi-custom design, design methodologies, and simulation of designed circuits. Circuits designed will be fabricated for testing by student. Prerequisites: ELEC 354 and 383 or equivalent.
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3.00 Credits
3 Semester Hours Topics in computer-aided design of digital VLSI systems. Topics include: custom and semi-custom design, design methodologies of advanced CMOS circuits, and simulation of designed circuits. Circuits designed will be fabricated for testing by student. Prerequisites: ELEC 354 and 383 or equivalent.
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