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Course Criteria
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3.00 Credits
Description: Theory of analog and digital communications. Topics: double-and single-side-band analog communication systems and performance in additive noise, digital modulation and demodulation techniques, measure of information and channel capacity, source encoding, Mary signals and constellations, channel coding for reliable communications, intersymbol interference, equalization, fading multipath channels and diversity techniques. Applications: AM, FM and television broadcasting, facsimile transmission, compact disc system and mobile radio communications. Prerequisites: Undergraduate background in engineering probability and statistics and in principles of communications (equivalent to ECE 3720 and ECE 4790). 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: Principles of cellular and wireless communication system, including frequency reuse, hand-off, interference and capacity; modulation techniques; propagation; channel modeling and equalization; diversity; multiple access techniques including FDMA, TDMA and CDMA; wireless standards (AMPS, IS-54, IS-95); digital cordless standards. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: Radar systems are introduced in a framework of electronic systems integration which represents a unification of engineering theory and practice. A comprehensive set of radar principles are presented which form a foundation for the radar range equator. Systems applications are presented which illustrate the potentials and limitations of radar. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ECE 8072 Minimum Grade of C
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3.00 Credits
Description: Fundamentals of speech modeling and speech communication. Topics: digital models for speech production, digital waveform coding, linear prediction of speech, homomorphic speech processing, short-time spectrum anaylsis methods, and application case studies including speech synthesis, speech recognition, and speaker recognition. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ECE 8072 Minimum Grade of C and Graduate Engineering level ECE 8231 Minimum Grade of C
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3.00 Credits
Description: Introduction to fiber and free space optical communication systems from a discrete and system perspective. Topics include : fiber optics waveguides, pulse dispersion and bandwidth computations, PIN and APD detectors. LED and LD optical sources, optical receiver designs, bit error rate estimation, and transmission link analysis. Also examined' are system requirements for space-based laser communication systems which include communication bandwidth as well as acquisition and pointing considerations. Prerequisites: Undergraduate electromagnetic theory, differential equiations. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: Digital communication modulation and reception. Topics: unifying signal space representation of digital modulation schemes, optimum digital communication symbol detectors, detector performance evaluation, optimum and adaptive equalizers for channel distortion mitigation, maximum likelihood sequence estimators (MLSE's), the Viterbi algorithm MLSE implementation, and spread sprectrum and other modulation schemes. Computer assignements provide experience with symbol detection adaptive channel equalization and the Viterbi algorithm applied to several realistic channel models and modulation schemes. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ECE 8072 Minimum Grade of C and Graduate Engineering level ECE 8700 Minimum Grade of C
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3.00 Credits
Description: Information theory, within the context of digital communications applications, as a means of bounding digital communication system performance. Topics in channel coding including block and convolutional channel coding, Trellis coded modulation, turbo coding and turbo trellis coded modulation. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ECE 8072 Minimum Grade of C and Graduate Engineering level ECE 8700 Minimum Grade of C
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3.00 Credits
Description: Design and operation of a satellite communication systems. Topics covered in detail: modulation, satellite links, electronics, multiple access systems, frequency hopping, crosslinks, and mobile satellite systems. Position determination and ranging systems will also be covered. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites: Graduate Engineering level ECE 8700 Minimum Grade of C
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3.00 Credits
Description: Broad background in Data Communications, Communication Protocols, and Computer Networks, emphasizing concepts, principles, and mechanisms. Topics: data communication, communication architecture, computer and communication equipment interface, point-to-point and multi-access communication links, networks, interconnection of networks, data presentation, distributed applications, and network management. The course is structured around issues involved in solution of network design problems as building networks, physically connecting hosts, interconnecting multiple networks, getting host processes to communicate across networks, allocating network resources, representing data in the network, and securing the communication. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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3.00 Credits
Description: A study of the fundamental theory of rotating electric machinery. Magnetic circuits, transformers, electromechanical energy conversion principles, basic concepts of rotating machines, steady state and transient performance of synchronous machines, steady state and transient performance of polyphase induction machines, steady state and transient performance of DC machines. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
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