Master of Science in Electrical Engineering Degree Options
To receive a Master of Science in Electrical Engineering degree a student must
complete a minimum of five (5) courses in the area of emphasis, and complete a
Thesis on a research topic for the thesis option (30 SCH) and eight (8) courses
in the non-thesis (36 SCH) option..
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EENG 5301 Wireless Communications and Networks
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EENG 5303 Computational Methods in Electromagnetics
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EENG 5304 Power Systems Analysis
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EENG 5307 Introduction to Random Processes
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EENG 5308 Digital Signal Processing
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EENG 5309 Statistical Signal Processing
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EENG 5310 Solid State Devices
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EENG 5316 Optical Fiber Communication
- EENG 5330 Communication Systems Engineering
- EENG 5333 Power Systems Planning and Operation
- EENG 5336 Real Time Systems
- EENG 5337 Semiconductor Devices
- EENG 5340 Advanced Topics in EE
- EENG 5199-5399 Independent Study
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ENGR 5302 Instrumentation & Measurement Systems
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ENGR 5305 Data Acquisition & Instrumentation
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ENGR 5306 Modern Control Systems Design
- ENGR 5323 Design of Experiments
- ENGR 5327 Quality Control & Statistics
- ENGR 5328 Finite Element Analysis
- ENGR 5312 Microcontroller Applications
- ENGR 5320 Reliability Analysis
- ENGR 5326 Vibration Analysis of Rotating Machinery
Master of Engineering Thesis:
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A minimum of three (3) credits of graduate courses in
Mathematics must be applied to the Master of Science in Electrical Engineering
Degree.
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Examples of Graduate Mathematics Courses:
- MATH 5311 Advanced Engineering Mathematics
- MATH 5341 Real Analysis I (Prerequisite: MATH 4341 Real Variables)
- MATH 5381 Applied Mathematics I (Prerequisite: MATH 4341 Real Variables)
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Revised 02-11-2008
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