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The following list of course offerings reflects the range of the research activities of the ECE faculty. Complete course offerings (including descriptions, prerequisites, etc.) may be found in the Graduate School Catalog.
ECE 300 Special Topics in Electrical and Computer Engineering ECE 301 Introduction to Systems Theory ECE 302 Linear Multivariable System Design ECE 307 Dielectric and Magnetic Materials Science ECE 311 Seminar ECE 313 Applied Probability and Stochastic Processes ECE 314 Information Theory ECE 316 Digital Signal Processing ECE 317 Adaptive Signal Processing ECE 318 Neural Networks for Classification and Optimization ECE 320 Independent Study in ECE ECE 322 Modern Manufacturing System Engineering ECE 327 Fuzzy Sets ECE 329 Computational Methods for Optimization ECE 330 Optimal Control Systems ECE 331 Nonlinear System Theory ECE 332 Information ECE 333 Man-Machine Systems Analysis ECE 334 Experimental Investigation of Control Systems ECE 335 Computer Networks and Distributed Processing Systems ECE 336 Stochastic Models for the Analysis of Computer Systems and Comm. Networks ECE 337 VLSI Fabrication Principles ECE 338 Semiconductor Devices & Models ECE 339 Fundamentals of Opto-Electronic Devices ECE 340 Electronics Materials ECE 341 MOS Devices and VLSI Fundamentals ECE 342 Electronic Theory of Semiconductors ECE 343 Thermodynamic Theory of Generalized Fields I ECE 344 Thermodynamic Theory of Generalized Fields II ECE 345 Nanotechnology ECE 346 Microwave Techniques ECE 348 Electromagnetic Wave Propagation ECE 349 Antenna Theory and Applications ECE 350 Advanced Optoelectronics ECE 351 Advanced Semiconductor Devices ECE 352 Transport in Semiconductors ECE 353 Fundamentals of Photonics ECE 354 Optical Systems Engineering ECE 355 Optical Waveguides ECE 356 Lasers for Optoelectronics ECE 357 Advanced Numerical Methods in Scientific Computation ECE 361 Communication Theory ECE 362 Estimation and Filtering Theory ECE 363 Stochastic Control ECE 364 Linear Programming and Network Flows ECE 365 Advanced Signal Detection ECE 366 Optical Information Processing ECE 368 Wireless Communication ECE 369 Pattern Recognition and Neural Networks ECE 370 Biomedical Instrumentation I ECE 372 Communication and Control in Physiological Systems ECE 373 Biomedical Instrumentation Lab. ECE 374 Digital Image Processing ECE 377 Engineering Problems in Hospital ECE 378 Biomedical Imaging ECE 379 Advanced Ultrasonic Imaging Techniques *GRAD 395 Master's Thesis Research (1-9 credits) *GRAD 396 Full-time Master's Research (3 credits) *GRAD 397 Full-time Directed Studies (Master's level; 3 credits) *GRAD 398 Special Readings (Master's level; non-credit) *GRAD 399 Thesis Preparation (non-credit) *GRAD 495 Doctoral Dissertation Research (1-9 credits) *GRAD 496 Full-time Doctoral Research (3 credits) *GRAD 497 Full-time Directed Studies (Doctoral level; 3 credits) *GRAD 498 Special Readings (Doctoral) (non-credit) *GRAD 499 Dissertation Preparation (non-credit) In addition to these courses, graduate students in the Electrical & Computer Engineering Department often elect graduate courses from other departments, e.g., Physics, Chemistry, Computer Science, Economics, Operations Management, Chemical and Mechanical Engineering, Mathematics, Statistics.
* For more information about the GRAD courses, consult the Graduate Catalog or the Report of the Graduate Student Financial Aid Task Force).
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