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Course Criteria
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3.00 Credits
Continuation of EE 497. Requires submission of a written thesis, public presentation, and oral defense of the research project. Preparation for Course P: EE 497 and honors classification. Cr. 3.
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3.00 Credits
A study of factors that are important in the design and operation of the hardware necessary to reliably deliver large amounts of electrical energy over substantial areas. Particular emphasis is placed on the factors that limit power handling capability. A review of line parameters and loss mechanisms, high voltage and current limitations in the form of corona, audible noise, radio noise, field effects, and heat transfer are considered. Also included is an introduction to system protection. Cr. 3. Dual Level Course Dual Level, Undergraduate-Graduate
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3.00 Credits
Provides an overview on the protocols and architectures of existing and emerging wireless networks. Specifically, this course involves the study of wireless networks working with existing protocols and new proposed protocols that are more suitable to the particular characteristics of the wireless technology. Protocols for medium access control, routing, and reliable transport, as well as middleware and applications for wireless networks, are covered. Preparation for Course P: ECE 442 and senior or graduate standing in either an engineering or science degree program. Cr. 3. Dual Level Course Dual Level, Undergraduate-Graduate
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3.00 Credits
A qualitative and quantitative study of the issues in design, analysis, and operation of computer communication and telecommunication networks as they evolve toward the integrated networks of the future employing both packet and circuit switching technology. The course covers packet and circuit switching, the OSI standards architecture and protocols, elementary queuing theory for performance evaluation, random access techniques, local area networks, reliability and error recovery, and integrated networks. Preparation for Course P: ECE 302 or equivalent. Cr. 3. Dual Level Course Dual Level, Undergraduate-Graduate
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3.00 Credits
An introduction to the problems involved in designing and analyzing current machine architectures. Major topics include performance and cost analysis, pipeline processing, vector machines and numerical applications, hierarchical memory design, and multiprocessor architectures. A quantitative approach allowing a computer system designer to determine the extent to which a design meets design goals is emphasized. Preparation for Course P: ECE 365 or graduate standing. Cr. 3. Dual Level Course Dual Level, Undergraduate-Graduate
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3.00 Credits
Introduction to point estimation, least squares, Bayes risk, and maximum likelihood. Optimum mean-square recursive estimation for nondynamic stochastic systems. State estimation for discrete-time and continuous-time dynamic systems. Parameter identification of stochastic systems using maximum livelihood. Stochastic approximation, least squares, and random search algorithms. Preparation for Course P: ECE 302. Cr. 3. Dual Level Course Dual Level, Undergraduate-Graduate
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1.00 - 3.00 Credits
Formal classroom or individualized instruction on topics of current interest. May be repeated for credit. Preparation for Course P: consent of instructor. Cr. 1-3. Variable Title (V.T.) Dual Level Course Dual Level, Undergraduate-Graduate
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4.00 Credits
A study of DC electrical circuits and AC electrical circuits. Topics include Circuit Components (R, L, C), voltages, currents, power, Ohm's law, Kirchhoff's laws, series and parallel circuits, circuit theorems, electrical measurements, sinusoidal AC voltages, currents, impedance, RL circuits, RC circuits, and RLC circuits.Preparation for Course C: MA 153. Cr. 4. Hours Class 3, Lab. 2-3. Notes Not open to EET majors.
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4.00 Credits
Voltage, current, resistance, Ohm's law, Kirchhoff's current and voltage law, resistance combinations, and Thevenin's, Norton's, and superposition theorems are studied and applied. DC and AC circuits are studied and utilized with basic AC terminology described. Ideal RC coupling and filter circuits and RC seitching circuits are introduced. Fundamental analog circuits with ideal or near-ideal electronic devices are utilized in the lecture and laboratory to enhance the understanding of basic circuit laws and theoremPreparation for Course C: MA 153. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
A study of switching circuits, waveshaping, logic gates, arithmetic codes, Boolean algebra, mapping and other simplification techniques. Discrete devices and small-scale (SSI) and medium-scale (MSI) integrated circuits are used in combinational and introductory sequential logic circuits. Cr. 4. Hours Class 3, Lab. 2-3.
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