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Course Criteria
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3.00 Credits
3 hours. Discrete time systems and the z-transform, sampling and stability analysis techniques, digital controller design, microcomputer implementation of digital systems, quantization and round off noise analysis. Prerequisite: ELEC 422. ELEC 442 - Applied Electromagnetism 3 hours. Complex vectors, Maxwell's equations, uniform plane waves, reflection and transmission of waves, waveguides and resonators, transmission lines, antennas, special topics in waves, electrostatic fields, electric force and energy, special techniques to solve electromagnetic equations, direct currents, magnetostatic fields, magnetic circuits, electroquasistatic fields, magnetoquasistatic fields, examples of applications. Prerequisites: PHYS 126, MATH 271.
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3.00 Credits
The primary objective of this course is to gain an elementary familiarity with wind energy. After a brief review of power and energy, wind energy is introduced. Topics of discussion include history and evolution of wind energy technology, power in the wind, wind turbines, components and operation of typical wind systems, small scale hybrid energy systems, markets, demand, and resources. The course also includes a class project.
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3.00 Credits
This course covers topics based on Cisco Networking Academy CCNA1 and CCNA2 Exploration courses. This includes the open systems interconnection (OSI) model, IP addressing and subnetting, Ethernet, the Cisco Eagle server, basic router configuration, static routing, and dynamic routing protocols RIP, EIGRP, and OSPF. Prerequisite: permission of instructor. (Cross-listed as MIS 440)
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3.00 Credits
This course covers topics based on Cisco Networking Academy CCNA3 and CCNA4 Exploration courses. This includes LAN switching, VLANs, inter-VLAN routing, basic wireless concept and configuration, wide area networks (WANs), PPP, frame relay, network security, and ACLs. Prerequisite: permission of instructor. (Cross-listed as MIS 443)
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3.00 Credits
3 hours. Basic optical fiber communication components including optical fibers, optical transmitters, and optical receivers; basic concept of analog and digital signals, channel multiplexing, and modulation; geometrical-optics description, wave propagation, dispersion, and fiber loss; system design and performance.
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1.00 - 3.00 Credits
1-3 hours. Self-directed study. Prerequisite: Senior standing and approval of topic by faculty advisor and Dean's Office. Completed Plan of Study and permission of instructor required before registering for independent study.
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3.00 Credits
3 hours. Metals, alloys and ceramics in the superconducting state: London, Ginzburg-Landau and BCS theories; High Tc superconductor theories such as Anderson's RVB model, types I and II, and high Tc superconductors. Applications in power generation and transmission, computers, magnetic field control systems, Josephson junctions, SQUID. Prerequisite: PHYS 126.
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3.00 Credits
3 hours. The main objective of the course is to introduce the notion of approximate reasoning and its applications in solution of engineering problems. The general rules of logic and implication, computational aspects of fuzzy inference, and the mathematics of process are discussed. The course also includes a design project. Fuzzy logic is a project-based course. Prerequisites: ELEC 303, MATH 271.
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3.00 Credits
3 hours. Magnetic theory and circuits, balanced polyphase circuits, and fundamentals of electromechanical energy conversion. Phasors, per-unit notation, transformers, three-phase and single-phase induction motors, synchronous, direct current and specialized machines. Prerequisite: ELEC 220.
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3.00 Credits
3 hours. Expert Systems is a project-based course that explores the application of artificial intelligence concepts to real life engineering problems. The course is primarily intended for students with have completed at least one of ELEC 466 or ELEC 474. Topics of discussion and techniques to explore include rule-based systems, modern control schemes, knowledge growth, and machine learning. Prerequisite: ELEC 466 or 468.
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