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Courses
Listing of WAMI Courses: 3000 and 4000 levels are Undergraduate Courses. 5000 and above are Graduate Level Courses.
Graduate Course schedule for 2002/2003/2004 (html) and in Microsoft Word and in PDF format
| EEL 3100: NETWORK ANALYSIS AND DESIGN | EEL 4102: LINEAR SYSTEM ANALYSIS | EEL 4111: RF MICROWAVE CIRCUITS I |
| EEL 4112: RF MICROWAVE CIRCUITS II | ELR 4316l: WIRELESS; CIRCUITS &; SYSTEMS LABORATORY | EEL 4472: ELECTROMAGNETICS |
| EEL 4512C: INTRODUCTION TO COMMUNICATION SYSTEMS | EEL 4658:RF MICROWAVE MEASUREMENT | EEL 4756: SIGNAL AND IMAGE PROCESSING |
| EEL 5437: WIRELESS SYSTEMS DESIGN AND ANALYSIS | EEL 5462: ANTENNA THEORY> | EEL 5572C: LOCAL AND METROPOLITAN AREA NETWORKS |
| EEL 5935, 5936, 5937 SPECIAL ELECTRICAL TOPICS I, II, III | EEL 6xxx MONOLITHIC MICROWAVE IC DESIGN | EEL 6xxx: ADVANCED MMIC DESIGN |
| EEL 6481: NUMERICAL TECHNIQUES IN ELECTROMAGNETISM | EEL 6502: DIGITAL SIGNAL PROCESSING I | EEL 6509: SATELLITE COMMUNICATION |
| EEL 6506C BROADBAND COMMUNICATION NETWORKS | EEL 6531: BROADBAND TELECOMMUNICATIONS I |
EEL 6534: COMMUNICATION SYSTEMS I |
| EEL 6593: MOBILE PERSONAL COMMUNICATION | EEL 6908: INDEPENDENT STUDY/PROJECT | EEL 7931: SELECTED TOPICS IN COMMUNICATION |
| EEL- 3100 NETWORK ANALYSIS AND DESIGN ( 3 ) |
| Prerequisites: ENG 3373. A second course in linear circuit analysis and design. Transient and steady-state responses of passive R-L-C networks to various functions. |
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| EEL 4102 LINEAR SYSTEM ANALYSIS ( 3 ) |
| Prerequisites: ENG 3100. Provides further study in the analysis of linear networks and systems. Includes time and frequency domain points of view. Laplace, Fourier and uperposition integrals. |
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| EEL 4111 RF MICROWAVE CIRCUITS I ( 3 ) |
| Prerequisites: EEL 3100, EEL 4472. Passive RF & microwave circuit design. Investigate the characteristics of transmission lines used in modern RF & microwave systems, the tools used for analysis, and some common circuit topologies for matching, filtering and power distribution. Part one of two- part sequence. EE majors only. |
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| EEL 4112 RF MICROVAWE CIRCUITS II ( 3 ) |
| Prerequisites: EEL 4111. Active RF microwave circuit design. Investigate the characteristics of amplifiers and oscillators used in modern microwave systems, the tools used for analysis, and some common circuit topologies for biasing and matching. Substantial coverage of stability analysis, constant gain methods and noise figure. Part two of two- part sequence. EE majors only. |
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| ELR 4316L WIRELESS CIRCUITS SYSTEMS LABORATORY ( 2 ) |
| Prerequisites: EEL 4472. An extensive hands-on introduction to wireless radio frequency and microwave circuits and systems, involving modern measurements, fabrication and computer-aided design experiences at both component and sub-system levels. Not available on an S/U basis. |
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| EEL 4472 ELECTROMAGNETICS ( 4 ) |
| Prerequisites: MAP 2302, PHY 2049, PHY 2049L. Electromagnetic
field theory, including static and dynamic electromagnetic fields;
applications; environmental effects (effects of radiation, magnetic fields). EE majors or CI. |
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| EEL 4512C INTRODUCTION TO COMMUNICATION SYSTEMS ( 3 ) |
| Prerequisites: EEL 3100. Signals and Fourier transforms in communication systems; measure of information in signals. AM, FM, and PM modulation and demodulation systems. Sampling, quantization and PCM. Data communication; terminals, and modems; repeaters, timing circuits, and interfaces. Local networks. |
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| EEL 4658: MICROWAVE MEASUREMENTS ( 3 ) |
| This course provides an understanding of the motivation, theory, and practical applications of a wide range of radio frequency (RF) and microwave measurements. Treatment includes scattering parameter, noise power, spectrum analysis, and non-linear frequency conversion and distortion measurements |
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EEL 4756 SIGNAL AND IMAGE PROCESSING ( 3 ) |
| Sampling and quantization of signals and images; frequency-domain representations, transforms; filtering, convolution, and correlation; raster scanning and interlacing; color images; fast methods and parallelism; multi-rate processing; information signals. |
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| EEL 5462 ANTENNA THEORY ( 3 ) |
| Prerequisites: EEL 4472 or CC. Antenna theory beginning with
fundamental parameter definitions and continuing with mathematical concepts, elemental antennas and arrays. |
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| EEL 5572C LOCAL AND METROPOLITAN AREA NETWORKS ( 3 ) |
| Basics of data communication exchange of digital information over communication media; Basic of LANs/MANs and its components: media topologies, access methods, etc.; LAN/MAN architectures and protocols-IEEE 802.xLAN Standards; High speed LANs such as FDDI, IEEE 802.6 MAN, etc., Internerworking; LAN/MAN Design and selections. |
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| EEL 6936 MMIC Power Amp. Design ( 3 ) |
| Prerequisite: RF/ Microwave Circuits 2 or equivalent background. This course covers "advanced" topics not addressed in the course Monolithic Microwave IC Design. These topics include those required to complete a fabrication ready MMIC design, layout and linear as well as non-linear simulation. Although the emphasis of the course may differ in future offerings, it is currently placed on GaAs FET based MMIC power amplifier design. |
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| EEL 6xxx MONOLITHIC MICROWAVE IC Design (3 ) |
| Prerequisites: EEL 4111 and EEL 4112 or approval. Presents the design theory, technology, and applications of monolithic microwave integrated circuits (MMICs). Lectures, homework and CAD projects develop understanding of the processing, design and performance issues for MMICs. |
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| EEL 6481 NUMERICAL TECHNIQUES IN ELECTROMAGNETISM ( 3 ) |
| Prerequisites: EEL 5462, EEL 6486C. Review of Maxwell's equations. Finite differences, finite elements, boundary elements method of moments. Introduction to geometric theory of optics and diffraction. |
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| EEL 6502 DIGITAL SIGNAL PROCESSING I ( 3 ) |
| Digital signals and Fourier transforms. Z-transforms, digital filter networks; DFT, DCT, and fast transforms. Design or IIR and FIR filters; quantization effects. Multi-rate processing; interpolation and decimation. |
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| EEL 6506C BROADBAND COMMUNICATION NETWORKS ( 3 ) |
| Objectives of networking. Circuit and packet switching, queing theory. Topologies, layered architectures, protocols, and network performance. Local and wide-area networks. Broadband networks: SONET, SHD, ATM and BISDN. ATM: cell concept, virtual paths and channels, layer functions, interaces and protocols; Switch fabrics; CBR, VBR, ABR traffic, QOS. Current trends and internet. Applications to data/voice/video multimedia traffic. |
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| EEL 6509 SATELLITE COMMUNICATION ( 3 ) |
| Prerequisites: EEL 6534. Satellite characteristics, link calculations, earth station, frequency management, large and small (mobile) earth terminals. Digital communication for satellites: modulation coding and multiple-access techniques. Examples including the INTELSAT series. |
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| EEL 6531 BROADBAND TELECOMMUNICATIONS I ( 3 ) |
| Introduction to telecommunications. Telephone (voice and data), video and facsimile trasmission. Intersymbol inteference, adaptive equalizers, error correcting codes. |
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| EEL 6534 COMMUNICATION SYSTEMSI ( 3 ) |
| Digital communication and information theory. Random processes and
Markov chains. Communication channels including optical and microwave. Digital modulation and demodulation. Detection theory: matchedfilter, sequence detection. |
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| EEL 6593 MOBILE PERSONAL COMMUNICATION ( 3 ) |
| Characteristics of wireless mobile channels (indoor and outdoor); multipath and shadow fading, frequncy reuse; micro and pico cells: base-station and portable units. Cell coverage, blocking, and co-channel interference. TDMA, FDMA, CDMA and hybrid approches to multiple access. Protocols, hand-over, Voice. data, and multi-media over wireless indoor channels. (PR: EEL 6534) |
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| EEL 6908 INDEPENDENT STUDY/PROJECT ( 1 ) |
| Independent study in which students must have a contract with an instructor. Rpt. S/U |
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| Prerequisites: EEL 6535. Advanced topics in communications
such as synchronization, spread-spectrum communications, fading chanels, large constellation signaling schemes, mobile radio, statistical multiplexing, performance measurement, etc. |
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