304
Electrical & Computer Engineering (ECEN)
ECEN 4763 Introduction to Digital Signal Processing Prerequisites: ECEN 3513; degree program requires admission to Professional School prior to enrollment. Description: Introduction to discrete linear systems using difference equations and z-transforms. Discrete Fourier analysis. Design of digital filters. Sampling theorem. Applications of digital signal processing. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4773 Real Time Digital Signal Processing Prerequisites: ECEN 4763 or equivalent; degree program requires admission to Professional School prior to enrollment. Description: DSP Processor architectures and programming. A/D, D/A, polled and interrupt-driven I/O. Realtime implementation of FIR/IIR filters, the FFT, and other DSP algorithms on special purpose DSP hardware from Motorola, Texas Instruments and others. Link between DSP theory and practical implementation. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate, Undergraduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 4823 Design of Optical Systems Prerequisites: PHYS 2114; degree program requires admission to Professional School prior to enrollment. Description: Introduction to optics through the design, construction, and characterization of optical systems. Emphasis on geometrical optics and spectroscopy. Course previously offered as ECEN 3813. Credit hours: 3 Contact hours: Lecture: 2 Lab: 2 Levels: Graduate, Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Elec & Computer Engr ECEN 4843 Design of Lasers and Systems Prerequisites: ECEN 3613; degree program requires admission to Professional School prior to enrollment. Description: Introduction of the design of lasers and optical systems based on lasers including the design, construction, and characterization of lasers. Gaussian beams and optics, laser gain materials, laser cavities, advanced topics. Course previously offered as ECEN 4813. Credit hours: 3
ECEN 5030 Professional Practice Description: Experience in application of electrical engineering principles to typical problems encountered in industry and government engineering design and development projects. Solutions to the problems require participation by the student in the role of junior engineer or engineer-intern. Problem solutions involve economics and ecological considerations as well as technology and must be adequately documented. Offered for variable credit, 1-8 credit hours, maximum of 8 credit hours. Credit hours: 1-8 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Elec & Computer Engr ECEN 5060 Special Topics Prerequisites: Consent of instructor. Description: Engineering topics not normally included in existing courses. Repeat credit may be earned with different course subtitles assigned. Offered for variable credit, 1-6 credit hours, maximum of 30 credit hours. Credit hours: 1-6 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Elec & Computer Engr ECEN 5070 Directed Studies Prerequisites: Consent of instructor. Description: Investigation outside of the classroom of topics not normally covered in lecture courses. Offered for variable credit, 1-6 credit hours, maximum of 6 credit hours. Credit hours: 1-6 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Elec & Computer Engr ECEN 5113 Power Systems Analysis by Computer Methods Description: Quasi-static control of power systems and analysis of power systems under abnormal operating conditions. Transient stability studies. Models formulated and solutions outlined for implementation on the computer. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture Department/School: Elec & Computer Engr ECEN 5123 Engineering Systems Reliability Evaluation Description: Techniques and concepts needed for evaluating the long- term and short-term reliability of a system. Topics include static and spinning generation capacity; transmission, composite, interconnected, and dc system reliability evaluations; and power system security. Applications to systems other than power systems included. For students with little or no background in probability or statistics. Credit hours: 3 Contact hours: Lecture: 3 Levels: Graduate Schedule types: Lecture Department/School: Elec & Computer Engr
Contact hours: Lecture: 2 Lab: 2 Levels: Graduate, Undergraduate Schedule types: Lab, Lecture, Combined lecture and lab Department/School: Elec & Computer Engr ECEN 5000 Thesis or Report
Description: A student studying for the master's degree will enroll in this course for a maximum of six credit hours. Offered for variable credit, 1-6 credit hours, maximum of 6 credit hours. Credit hours: 1-6 Contact hours: Other: 1 Levels: Graduate Schedule types: Independent Study Department/School: Elec & Computer Engr
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