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Course Criteria
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3.00 Credits
Hwang, Kim Pipelined and vector processors; interconnection network for parallel processing, array and associative processors; multiprocessors; data-flow machines; systolic arrays and impact of the VLSI technology on parallel processors and processing.
Prerequisite:
E E 471, permission of instructor
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4.00 Credits
Network architectures and protocols; layered model; reliable transmission protocols at the data control layer; Transmission Control Protocols (TCP); routing algorithms; performance modeling, and analysis of packet-switched networks. Multi-access. Projects involving routing and multi-access principles.
Prerequisite:
E E 505 or equivalent
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3.00 Credits
Local area, metropolitan area, satellite, and packet radio networks; routing algorithms for wide area networks; optimal design of packetswitched networks; congestion and flow control; fast packet switching; gigabit networks.
Prerequisite:
E E 565 or permission of instructor
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3.00 Credits
Wireless communication networks, including digital broadcasting, wireless LAN, wireless access networks and ultra wide band (UWB); OFDM modem design; MAC and RLP; TCP/UDP over wireless; cross-layer protocol optimization; radio network planning.
Prerequisite:
E E 506; E E 565
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4.00 Credits
Kim All components of digital imageprocessing computer systems. Two-dimensional filtering and optimal filter design as well as basic image processing operations. Se ed advanced image processing topics. Individual student project. Offered: jointly with BIOEN 568.
Prerequisite:
permission of instructor
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4.00 Credits
Planar microstrip structures are high frequency circuits and antennas used in communication, aerospace and computer industries. Examines the computation of fields and waves in such structures. How to calculate circuit parameters and radiation characteristics. Structures studied include microstrip lines, coupled lines, antennas, resonators, and discontinuities.
Prerequisite:
E E 482, E E 572, or equivalent
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4.00 Credits
Eromagnetic waves in layered media; complex waves, leaky and slow waves, waves in periodic structures, optical fibers, ionosphere and other guiding structures; transients and dispersive media; waveguides and cavities; beam waves; eigenfunctions and eigenvalues.
Prerequisite:
graduate standing or permission of instructor
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4.00 Credits
Tsang Fundamentals of computational e romagnetics, method of moments, integral equations, basis functions, iterative methods, periodic structures and Green’s Functions finite difference time domain method, Yee’s lattice, absorbing boundary conditions, variational principles, and finite element method. Applications in antennas, waveguides, and scattering problems.
Prerequisite:
E E 572 or permission of instructor
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4.00 Credits
Tsang Current topics in computational e romagnetics, fast multipole multilevel method, sparse matrix canonical grid method, wavelet based methods, recursive method, spectral time domain method. Applications in large scale problems such as array antennas, radar cross section, rough surface scattering, and dense media scattering,
Prerequisite:
E E 573 or permission of instructor
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4.00 Credits
Tsang Propagation and scattering of e romagnetic, optical, and acoustic waves in turbulence and random media, scattering from rough surfaces and randomly distributed particles. Atmospheric turbulence, fog, rain, smog, clear-air turbulence detection, remote sensing, terrain scattering, scattering from blood cells and tissues, scattering by ocean waves. Applications to atmospheric sciences, bioengineering, geoscience, ocean engineering.
Prerequisite:
graduate standing or permission of instructor
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