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Electrical and Computer Engineering |
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EECE 435(G) - Wireless Communications
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Introduction to wireless communications; cellular mobile telephony: standards, systems, technologies; wireless data networks; personal communication systems (PCS) principles.
Prereq: EECE 452 .
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EECE 437 - Power Electronics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Analysis of power electronics devices and systems; AC and DC motor drives; thermal dissipation requirements; harmonics; power controllers; converters, inverters and commutation techniques.
Prereq: EECE 447 with a grade of “C” or better.
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EECE 442 - Computer Control Laboratory
1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.
Programmable Controllers with Ladder Logic and PID algorithms. Human Machine Interface, with control of various electro-mechanical and hydraulic processes.
Prereq: EECE 461(G) with a grade of “C” or better.
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EECE 443 - Design Lab I
2 Credit(s). 4 Hour(s) Lab. 1 Hour(s) Lecture.
Design and construction of semester project, preliminary design of year-long project; preparation of formal laboratory reports.
Prereq: All 300-level EECE, CMPS,ENGR, MATH and PHYS courses in the curriculum, excluding EECE 344 and MATH 302 with a grade of “C” or better in each course.
Rstr: EECE majors only.
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EECE 444 - Circuits and Signals III
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Fourier transforms methods and applications. Discrete system methods. Z transform. Analysis and design of Analog and Digital filters and systems.
Prereq: EECE 356 with a grade of “C” or better.
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EECE 447 - Electrical Machines and Power
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Introduction to three-phase systems; electrical machines; electrical power transmission and distribution.
Prereq: EECE 356 with a grade of “C” or better.
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EECE 448 - Smart Power Grids
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Modeling and design of smart grid renewable energy systems, communication and control requirements, micro-grid photovoltaic and wind energy systems, load flow analysis and fault studies.
Prereq: EECE 447 with a grade of “C” or better.
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EECE 450 - Power Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Energy sources; transmission line parameters, modeling, performance and design, transients, insulation and arresters, one line diagram and per unit system; voltage and reactive control, symmetrical components, balanced and unbalanced faults. Introduction to network matrices and load flow.
Prereq: EECE 447 with a grade of “C” or better.
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EECE 451 - Digital Electronics
3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.
Analysis and design of digital electronic circuits. Internal details of MOS and Bipolar logic networks. Laboratory: Measurement and characterization of digital logic circuit parameters.
Prereq: EECE 335 with grade of “C” or better.
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EECE 452 - Communications Engineering I
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Study of communications systems. Mathematical analyses of digital and analog modulation techniques.
Prereq: EECE 356 with a grade of “C” or better.
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EECE 453 - Communications Engineering Laboratory
1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.
Experiments in analog and digital communications.
Prereq: EECE 452 with a grade of “C” or better.
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EECE 458(G) - Communications Engineering II
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Effects of random noise on modulation systems, including detailed study of digital communication systems and an introduction to information theory and coding.
Prereq: EECE 233 - Telecommunications , EECE 452 ; STAT 425(G) or EECE 380
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EECE 459 - Computer Hardware Design
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Design of Processor and Control Logic hardware. Computer hardware design, input/output and memory design.
Prereq: EECE 340 with a grade of “C” or better.
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EECE 460 - Design Lab II
1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.
Continuation of Design Lab I, including completion of year-long design project with formal oral and written presentation and prototype demonstration.
Prereq: EECE 443 with a grade of “C” or better.
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EECE 461(G) - Control Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Transfer functions, flow-graphs, state variables for feedback control systems, stability criteria. Digital control system design.
Prereq: ENGR 218 , EECE 260
Pre/Coreq: EECE 444
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EECE 465 - Internship in Telecommunications II
3 Hour(s) Lecture.
Supervised work experience in the area of Telecommunications. Does not apply towards satisfying degree requirements in electrical engineering.
Rstr: Permission of instructor required.
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EECE 466(G) - Communications Networks
3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.
Fundamentals of Networks including PCs, LANs, MANs and WANs.
Prereq: EECE 434(G) or EECE 413 , and EECE 452 .
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EECE 467 - Internship in Electrical Engineering II
3 Hour(s) Lecture.
Supervised work experience in the area of electrical engineering. Does not apply towards satisfying degree requirements in electrical engineering.
Rstr: Permission of instructor required.
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EECE 468 - Internship in Telecommunications III
3 Hour(s) Lecture.
Supervised work experience in the area of telecommunications. Does not apply towards satisfying degree requirements in electrical engineering.
Rstr: Permission of Instructor required.
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EECE 470 - Physical Electronics II
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Physical behavior of semiconductors and electronic properties of devices (diodes, transistors, and charged coupled devices). Application of modern electronic devices (lasers and solar cells).
Prereq: EECE 335 with a grade of “C” or better.
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EECE 472(G) - Special Topics
1-3 Credit(s).
Content varies. Alternate subtitles will appear on student’s transcript.
Rstr: Permission of the instructor required.
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EECE 479 - Computer Control
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Computer control of machines and processes. Microcontroller architecture and capabilities. Discrete controller design, ladder logic, PLCs.
Prereq: EECE 461(G) with a grade of “C” or better.
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EECE 480(G) - Computer Aided Engineering
3 Credit(s). 3 Hour(s) Lab. 2 Hour(s) Lecture.
Introduction to the application of computer graphics to the evaluation of new system designs and simulation of system performance in the computer before the first prototype is built.
Rstr: Permission of instructor required.
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EECE 481(G) - Robotic Technology
4 Credit(s). 3 Hour(s) Lab. 3 Hour(s) Lecture.
Robotics principles; imaging; sensors; actuators; feedback control; mobility, navigation and path planning; laboratory projects.
Rstr: Permission of instructor required.
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EECE 500 - Random Processes
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Discrete and continuous stochastic processes, correlation and power spectrum, filtering and estimation, Markov Processes.
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EECE 501 - Linear Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Representation of signals and systems, frequency-domain transform techniques, time-domain state-space methods.
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EECE 502 - Digital Signal Processing
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Z-transforms, digital filtering; finite and infinite impulse responses, synthesis methods, the discrete Fourier transform.
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EECE 505 - Advanced Control Design in Dynamic Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Advanced control system design and applications. Topics include: stale space design techniques, stability robustness, optimal control design, robust control, and fault tolerant control design.
Prereq: EECE 461(G) or MCHE 474(G) or CHEE 413(G) or equivalent basic control course.
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EECE 510 - Communication Networks
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Seven-layer OSI model, Data Link Layer and Network Layer protocols, Transport Layer, TCP/IP, higher layers, cross-layer design.
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EECE 511 - Queueing Theory and Applications
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Markov Processes, queuing models, applications to communication networks.
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EECE 520 - Digital Communication Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Digital baseband modulation systems, Matched filtering, Nyquist criterion for ISI, MPSK, MFSK, and MQAM, AWGN error probability, spread spectrum and OFDM.
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EECE 521 - Information Theory
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Source entropy, discrete memoryless sources, mutual information and capacity, coding theorems, applications.
Prereq: EECE 500
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EECE 522 - Error Correcting Codes
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Linear Block codes, BCH and Reed-Solomon codes, convolutional codes, Viterbi decoding, LDPC codes, turbo codes.
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EECE 530 - Optical Networks
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Optical transport technologies, WDM, long-haul networks, metro network, local networks, access networks.
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EECE 531 - Photonic Devices
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Optical fiber technologies, laser sources, fiber amplifiers, photodetectors, wavelength routers, passive components.
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EECE 532 - Fiber Optic Transmission
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Fiber link engineering, losses, dispersion effects, compensation techniques, optical modulation and coding applications.
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EECE 540 - Wireless Communications
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Wireless propagation, shadow fading and multipath effects, wide area cellular telephony, wireless LAN, emerging broadband wireless standards.
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EECE 541 - Mobile Wireless Networks
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Mobility effects in wireless propagation, coding, modulation and multiple access.
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EECE 550 - Control Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Advanced control system design applications. State space techniques, stability, robustness, optimal control, robust control, and fault tolerant control.
Prereq: EECE 461(G) or equivalent course.
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EECE 551 - Sensors and Control
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Sensor technologies, incorporation of sensors in control loops, performance analysis, case studies.
Prereq: EECE 550
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EECE 552 - Fault Tolerant Control
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Reliability in control systems, fault detection and mitigation, fault-tolerant control systems, applications to flight control.
Prereq: EECE 550
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EECE 560 - Physical Electronics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Physics of solid-state and opto-electronic devices, current technologies and applications.
Prereq: EECE 335 or equivalent course.
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EECE 561 - Fundamentals of RF IC Design
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Design of RF integrated circuits, lumped and distributed RLC networks, Smith chart, S-parameters, noise effects.
Prereq: EECE 353 or equivalent course.
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EECE 562 - Electronic Devices for Communication Systems I
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Physical theory and operation of MOS field-effect transistors and RF performance for wireless and lightwave applications.
Prereq: EECE 335 or equivalent course.
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EECE 563 - Nanoscale Computational Electronics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Numerical investigation of device phenomena at nanoscale with application to modern devices.
Prereq: EECE 335 or equivalent course.
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EECE 564 - RF IC Building Blocks
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Design of RFIC building blocks, for wireless and lightwave applications.
Prereq: EECE 561
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EECE 565 - Low Power Devices and Circuits for Sensory Control Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Transducers and sensor networks for ultra low power control systems.
Rstr: Permission of instructor required.
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EECE 566 - IC and MEMS Fabrication
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Principles of planar technology; CMOS, Bipolar, BiCOMOS, MEMS, yield and wafer scale integration, Interconnects and multi-chip modular technology.
Rstr: Permission of instructor required.
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EECE 567 - Mixed-Signal Circuits and Systems Design
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Building blocks of mixed signal circuits design, current mirrors, differential amplifiers, weighted multipliers, operational amplifiers, and digital gates and circuits.
Prereq: EECE 353
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EECE 570 - Power Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Energy sources; transmission line parameters, modeling, performance and design, introduction to network matrices and load flow, faults and outages management.
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EECE 571 - Smart Power Grids
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Power grid concepts, microgrids, smart power grids, solar and wind energy, load flow analysis, fault management.
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EECE 572 - Alternative Energy Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Generation, storage, and efficient use of photovoltaic, solar, wind, nuclear, thermoelectric, geothermal, fuel cell, and other sources of energy.
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EECE 581 - Computer Graphics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Image input and output devices, graphics hardware and software, interactive techniques, animation.
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EECE 582 - Image Processing
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
2D digital signal processing, image processing techniques; data compression for image storage and transmission; image reconstruction from noisy projections.
Prereq: EECE 430(G) or equivalent
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EECE 583 - Emerging Interactive Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Mobile devices, electronic kiosks, advanced virtual and augmented interfaces. Multidisciplinary design, technical, and human-factors aspects.
Rstr: Permission of instructor required.
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EECE 584 - Mobile Devices and Applications Design
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Architectures, networks, and displays. Mobile device programming.
Rstr: Permission of instructor required.
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EECE 585 - Mobile Graphics Programming
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
2D and 3D graphics for mobile devices. Standards, performance issues, computational and memory constraints.
Rstr: Permission of instructor required.
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EECE 590 - Special Topics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
New and emerging topics in electrical engineering.
Rstr: Permission of instructor required.
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EECE 597 - Directed Individual Study
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Guided individual study and research in selected topics.
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EECE 598 - Directed Individual Study
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Guided individual study and research in selected topics.
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EECE 599 - Thesis Research and Thesis
3-9 Credit(s).
Thesis research and thesis.
Grading Option: Grades: S, U, W
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EECE 600 - Advanced Topics in Random Processes
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Selected topics in advanced stochastic processes and applications.
Prereq: EECE 500
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EECE 601 - Linear Filtering and Estimation
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
State-space models for linear dynamical systems; Kalman filtering; estimation theory and applications in control and communication systems.
Prereq: EECE 501
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EECE 610 - Advanced Topics in Communication Networks
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Queuing theoretic modeling and analysis of network performance.
Prereq: EECE 510
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EECE 620 - Current Topics in Information and Coding Theory
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Selected topics from current literature.
Prereq: EECE 521
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EECE 630 - Advanced Optical Transmission
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Advanced coding, modulation and multiple access methods for ultra high-speed optical transmission.
Prereq: EECE 530
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EECE 631 - Advances in Photonic Devices
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Selected readings from current literature in photonic communications devices.
Prereq: EECE 531
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EECE 640 - Broadband Wireless Communication Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Advanced coding and modulation systems, space-time coding, MIMO channels, cooperative communications, network coding, emerging standards.
Prereq: EECE 540
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EECE 641 - Cognitive Radios
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Cognitive and software radios, architectures and implementations, standards and applications.
Prereq: EECE 540
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EECE 642 - MIMO Wireless Channels and Space-Time Coding
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
MIMO channel modeling, capacity analysis, space-time coding, applications.
Prereq: EECE 540
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EECE 650 - Advanced Control Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Linear and non-linear dynamical systems, filtering, estimation and prediction, applications.
Prereq: EECE 550
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EECE 651 - Advanced Topics in Sensors and Control
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Selected readings in sensors and controls from current literature.
Prereq: EECE 551
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EECE 660 - Solid State Physics for Devices
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Rigorous application of principles of solid-state physics to electronic and photonic devices.
Prereq: EECE 560
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EECE 661 - Introduction to Quantum Devices
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Applications of quantum principles to solid-state devices.
Prereq: EECE 470 or equivalent course.
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EECE 662 - Electronic Devices for Communications II
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Physical theory and operation of Bipolar junction transistors and RF performance for wireless lightwave applications.
Prereq: EECE 560
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EECE 663 - Fluctuation Phenomena
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Fundamental study of fluctuation phenomena in solid-state devices which limit device performance for communication applications.
Prereq: EECE 500
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EECE 670 - Advanced Topics in Energy Systems
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Case studies and current readings in emerging trends in energy systems, alternative and hybrid energy sources and smart energy grids.
Prereq: EECE 570
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EECE 690 - Special Topics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
New and advanced topics in electrical engineering.
Rstr: Permission of instructor required.
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EECE 699 - Dissertation Research and Dissertation
3-24 Credit(s).
Dissertation research and dissertation.
Grading Option: Grades: S, U, W
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EECE 899 - Examination Only
3 Hour(s) Lecture.
Required of all graduate non-thesis students taking examinations, oral and/or written, are not registered for any other course.
Grading Option: Grades: S, U, W
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General Engineering General Engineering Classes are taught by faculty from various departments in the College of Engineering.
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ENGR 201 - Electrical Circuits
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Analysis of AC and DC electrical circuits using fundamental laws of electricity; study of digital techniques including number systems, logic gates, and circuits, microcomputer organization; study of three phase electrical circuits, motors, transformers and generators.
Prereq: PHYS 201 with a grade of “C” or better.
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ENGR 211 - Statics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Static systems of forces, vectors, moments, couples, centroids, center of gravity, friction, and moment of inertia.
Prereq: MATH 301 and PHYS 201 with a grade of “C” or better.
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ENGR 218 - Statics and Strength of Materials
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Simplification of force systems, equilibrium of particles and rigid bodies, friction, centroids and moments of inertia. Load classification, normal and shearing stresses and strains, displacements and stresses due to axial, torsional, and flexural, and combined loadings.
Prereq: PHYS 201 with a grade of “C” or better.
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ENGR 219 - Mechanics of Materials
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Load classification, normal and shearing stresses and strains, thermal effects, material properties, displacements and stresses due to axial, torsional, flexural, and combined loadings, shear and moment equations and diagrams, statically indeterminate elements; columns under centric and eccentric loadings.
Prereq: ENGR 211 or ENGR 218 with a grade of “C” or better.
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ENGR 301 - Thermodynamics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Laws of thermodynamics, available energy, mixtures, thermodynamic properties of matter, and applications to engineering systems.
Prereq: ,and CHEM 108 or PHYS 201 all with a grade of “C” or better.
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ENGR 302 - Honors Thermodynamics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Laws of thermodynamics, available energy, mixtures, thermodynamic properties of matter, and applications to engineering systems.
Prereq: MATH 270 , CHEM 108 , or PHYS 201 with a GPA of 3.2 or greater.
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ENGR 304 - Fluid Mechanics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Static and dynamic behavior of incompressible fluids. Continuity, energy and momentum equations, using the control volume approach. Dimensional analysis, similitude and model testing laws. Steady, incompressible fluid flow in series, parallel, and branching pressure conduits. Turbulent and laminar boundary layer concepts.
Prereq: ENGR 211 with a grade of “C” or better.
Pre/Coreq: ENGR 313 with a grade of “C” or better.
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ENGR 305 - Transport Phenomena
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Basic theories of fluid flow, heat transfer, and mass transfer; compressible and incompressible fluid flow, rheological equations of Newtonian and non-Newtonian fluids, concepts of laminar and turbulent flows, introductions of two-phase flow and boundary layer theory, flow measurements, hydraulic machinery; conductive, convective, and radioactive heat transfer, heat exchangers; diffusion.
Pre/Coreq: ENGR 301
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ENGR 311 - Engineering Data Analysis
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Analysis and presentation of engineering data, including compiling, evaluation, refining, and smoothing of data; presentation of data and its utilization in engineering reports; objectives, format, preparation and use of detailed engineering reports and their presentation; analysis and use of information retrieval systems for engineering data, papers, reports and subject matter.
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ENGR 313 - Dynamics
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Kinematics and kinetics of particles and rigid bodies; Newton’s Laws of Motion; work and energy principles; impulse and momentum; and applications to two and three dimensional problems.
Prereq: ENGR 211 with a grade of “C” or better.
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ENGR 397 - Engineering Co-Op I
1-3 Credit(s).
Rstr: Permission of the department head required.
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ENGR 398 - Engineering Co-Op II
1-3 Credit(s).
Rstr: Permission of the department head required.
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ENGR 400(G) - Advanced Engineering Methods
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Content varies. Permission of instructor required.
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ENGR 401 - Engineering Registration Studies
2 Credit(s). 0 Hour(s) Lab. 2 Hour(s) Lecture.
Review of engineering fundamentals for engineering examination.
Rstr: Senior standing.
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ENGR 410(G) - Wave Phenomena
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Introduction to wave theory, development of wave equations and application in continuous media, acoustics, electromagnetic waves, and light.
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ENGR 411(G) - Manufacturing Facility Planning
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Selection of plant site, product development, overview of manufacturing processes and their economic evaluation, production charts, machine and manpower assignment, material handling and plant layout.
Prereq: ITEC 345 , or MCHE 473 , or MGMT 382.
Rstr: Cannot be taken by students with credit for ITEC 446 .
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ENGR 412(G) - Computer Integrated Manufacturing Technology I
3 Credit(s). 1 Hour(s) Lab. 3 Hour(s) Lecture.
Combines technologies such as CAD, CAM, CAPP MRPII, simulation, and JIT in order to implement CIM and discuss their synergistic relationships.
Prereq: ITEC 345 , or MCHE 463(G) , or MGMT 382.
Rstr: Cannot be taken by students with credit for ITEC 447 .
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ENGR 497 - Proctor Seminar III
1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.
Rstr: Permission of the department head required.
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ENGR 498 - Proctor Seminar IV
1 Credit(s). 3 Hour(s) Lab. 0 Hour(s) Lecture.
Rstr: Permission of the department head required.
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ENGR 501 - Data Analysis for Engineering Projects
3 Credit(s). 0 Hour(s) Lab. 3 Hour(s) Lecture.
Basic concepts of random variation in engineering projects, followed by planning experiments, then analyzing the resulting data using exploratory procedures, point and interval estimation, tests of hypothesis, regression, or analysis of variance. Use of software for analysis and presentation.
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