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EE 4170 - Digital Control Systems Credit Hour(s): 3 Samples spectra and aliasing, analysis and design of digital control systems using root locus and transform techniques; discrete equivalents of continuous controller and quantization effects. Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D Corequisite(s): EE4170L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4170L - Digital Control Systems Laboratory Credit Hour(s): 1 Application and testing of control systems theory with electromechanical systems. Department Managed Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D Corequisite(s): EE4170 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4190 - Introduction to Intelligent Control Systems Credit Hour(s): 3 Foundations of fuzzy set theory, system modeling using fuzzy rules, structure of fuzzy controllers and PID fuzzy controller design. Neural network founndations, single layered/multi-layered perceptions, learning rules, basics of adaptive controls and adaptive neural control. Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D Corequisite(s): EE4190L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4190L - Introduction to Intelligent Control Laboratory Credit Hour(s): 1 Intelligent control strategies for systems and subsystems in industrial and engineering applications. Department Managed Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D Corequisite(s): EE4190 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4210 - Digital Communication Credit Hour(s): 3 Introduction to digital commuications: analog communication vs digital communication, source coding, pulse shaping, digital modulation/demodulation, signal detection and optimal receiver. Prerequisite(s): Undergraduate level EE 4000 Minimum Grade of C Corequisite(s): EE4210L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4210L - Digital Communication Laboratory Credit Hour(s): 1 Hands-on experience with modulation/demodulation modules and experimentation with representative communication system. Department Managed Prerequisite(s): Undergraduate level EE 4000 Minimum Grade of C Corequisite(s): EE4210 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4360 - Digital Signal Processing: Theory, Application and Implementation Credit Hour(s): 3 Principles and applications of digital signal processing (DSP) from the design and implementation perspective. Introduction to advanced digital signal processing design concepts. Focus on time and frequency domain algorithms. Methods include multirate signal processing, filter banks, time-frequency analysis, and wavelets. Prerequisite(s): Undergraduate level EE 4000 Minimum Grade of D Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4420 - Microwave Engineering I - Passive Components Credit Hour(s): 3 Transmission line theory and application, wave propagation in rectangular waveguides, microwave network analysis, matching network, design of microwave filter and resonator, and introduction of electromagnetic compatibility. Prerequisite(s): Undergraduate level EE 3450 Minimum Grade of D and Undergraduate level EE 3450L Minimum Grade of D Corequisite(s): EE4420L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4420L - Microwave Engineering I - Passive Components Laboratory Credit Hour(s): 1 Hands-on experience with microwave devices, microwave testing equipment and representative microwave systems. Department Managed Prerequisite(s): Undergraduate level EE 3450 Minimum Grade of D and Undergraduate level EE 3450L Minimum Grade of D Corequisite(s): EE4420 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4440 - Electronic Integrated Systems Credit Hour(s): 3 Theory and applications of integrated circuits. Bipolar and field effect transistor amplifier analysis and design, multi-stage and feed back amplifiers, ideal and real operational amplifiers, frequency response and compensation, active filters, comparators, and waveform generators. Prerequisite(s): Undergraduate level EE 3210 Minimum Grade of D and Undergraduate level EE 3310 Minimum Grade of D and Undergraduate level EE 3310L Minimum Grade of D Corequisite(s): EE4440L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4440L - Electronic Integrated Systems Laboratory Credit Hour(s): 1 Hands-on experience with Electronic Integrated components, subsystems and systems. Department Managed Prerequisite(s): Undergraduate level EE 3210 Minimum Grade of D and Undergraduate level EE 3310 Minimum Grade of D and Undergraduate level EE 3310L Minimum Grade of D Corequisite(s): EE4440 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4460 - Microwave Engineering II - Active Components and Circuits Credit Hour(s): 3 Fundamental of RF active components: modeling of RF active components; design impedance matching network; microwave transistor amplifier design; microwave transistor oscillator and mixer design; introduction to microwave system. Prerequisite(s): Undergraduate level EE 4420 Minimum Grade of D and Undergraduate level EE 4420L Minimum Grade of D Corequisite(s): EE4460L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4460L - Microwave Engineering II - Active Components and Circuits Laboratory Credit Hour(s): 1 Hands-on experience with active component microwave devices, subsystems, and systems. Department Managed Prerequisite(s): Undergraduate level EE 4420 Minimum Grade of D and Undergraduate level EE 4420L Minimum Grade of D Corequisite(s): EE4460 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4470 - Antenna Theory and Design Credit Hour(s): 3 Linear dipole antennas, antenna arrays, thin-wire antennas, moment method analysis examples (vee dipole, folded dipole, etc.), and broadband and frequency-independent antennas. Computer-aided design and analysis of wire antennas, feed networks, and antenna arrays using antenna CAD software. Prerequisite(s): Undergraduate level EE 4420 Minimum Grade of D and Undergraduate level EE 4420L Minimum Grade of D Corequisite(s): EE4470L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4470L - Antenna Theory and Design Lab Credit Hour(s): 1 Hands-on experience and fabrication of antenna elements with evaluation of antenna performance. Department Managed Prerequisite(s): Undergraduate level EE 4420 Minimum Grade of D and Undergraduate level EE 4420L Minimum Grade of D Corequisite(s): EE4470 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4480 - Remote Sensing Detectors and Systems Credit Hour(s): 4 Learn to analyze and design electro-optic (EO), infrared (IR), and microwave (radar) detection systems commonly used in remote sensing. Topics include remote sensing applications, electromagnetic wave theory, black body radiation, optics and imaging systems, EO, IR and radar detector design specifications, basic detection and estimation theory, and basic laboratory measurements with EO, IR and radar detectors. Prerequisite(s): Undergraduate level EE 3450 Minimum Grade of C and Undergraduate level EE 3450L Minimum Grade of C and Undergraduate level EE 4000 Minimum Grade of C Level: Undergraduate Schedule Type(s): Lecture/Lab Combination
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EE 4540 - Very Large Scale Integrated Circuit Design Credit Hour(s): 3 Introduction to VLSI system and subsystem design: CMOS devices and circuit design techniques, basic building blocks for CMOS design, fabrication processing and design rules, chip planning and layout, basic system subcomponents (adders, subtractors, ALUs, and others), system timing and power dissipation, simulation for VLSI design, and signal processing with VLSI. Prerequisite(s): (Undergraduate level EE 2000 Minimum Grade of D and Undergraduate level EE 2000L Minimum Grade of D) or Undergraduate level CEG 3320 Minimum Grade of D Corequisite(s): EE4540L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4540L - Very Large Scale Integrated Circuit Design Laboratory Credit Hour(s): 1 Work-station-based experience designing asic devices for evaluation and testing. Department Managed Prerequisite(s): (Undergraduate level EE 2000 Minimum Grade of D and Undergraduate level EE 2000L Minimum Grade of D) or Undergraduate Level CEG 3320 Minimum Grade of D and Undergraduate Level CEG 3320L Minimum Grade of D Corequisite(s): EE4540 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4550 - IC Hardware Security and Trust Credit Hour(s): 3 Analyze hardware security/trust and be able to implement various countermeasures to improve trust for hardware IC systems. Topics include IC design flow/lifecycle, trust issues at each stage of the IC lifecycle, attack methodologies that threaten HW IC systems, countermeasures to improve trust for HW IC systems, improving Trust for both ASIC and FPGA based systems. Prerequisite(s): Undergraduate level EE 2000 Minimum Grade of D and Undergraduate level EE 2000L Minimum Grade of D and Undergraduate level EE 4540 Minimum Grade of D and Undergraduate level EE 4540L Minimum Grade of D Corequisite(s): EE4550L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4550L - IC Hardware Security and Trust Lab Credit Hour(s): 1 Analyze hardware security/trust and be able to implement various countermeasures to improve trust for hardware IC systems. Topics include IC design flow/lifecycle, trust issues at each stage of the IC lifecycle, attack methodologies that threaten HW IC systems, countermeasures to improve trust for HW IC systems, improving Trust for both ASIC and FPGA based systems. Prerequisite(s): Undergraduate level EE 2000 Minimum Grade of D and Undergraduate level EE 2000L Minimum Grade of D and Undergraduate level EE 4540 Minimum Grade of D and Undergraduate level EE 4540L Minimum Grade of D Corequisite(s): EE4550 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4560 - Introduction to Robotics Credit Hour(s): 3 Introduces the mathematics of robots with emphasis on coordinate systems and transformations, manipulator kinematics and inverse kinematics, Jacobian, trajectory planning, dynamics and control. Prerequisite(s): Undergraduate level MTH 2350 Minimum Grade of D Corequisite(s): EE4560L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4560L - Introduction to Robotics Lab Credit Hour(s): 1 Laboratory introducing plant moduling and controller design. Corequisite(s): EE4560 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4600 - Autonomous UAV Flight Control Credit Hour(s): 3 Introductory course of UAV autopilot design. Major topics include quadrotor dynamics and modeling, UAV sensors, stabilization and control of altitude, pitch/roll, and yaw, position navigation using orientation angles, waypoint navigation, integration and practical issues Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D and (Undergraduate level CEG 1160 Minimum Grade of D or Undergraduate level CEG 2170 Minimum Grade of D) Corequisite(s): EE4600L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4600L - Autonomous UAV Flight Control Lab Credit Hour(s): 1 Laboratory supporting EE 4600/6600. Students will experience hands on learning in lab environment. Designing, implementing, and testing autonomous UAV flight control systems. Department Managed Prerequisite(s): Undergraduate level EE 4130 Minimum Grade of D and Undergraduate level EE 4130L Minimum Grade of D and (Undergraduate level CEG 1160 Minimum Grade of D or Undergraduate level CEG 2170 Minimum Grade of D) Corequisite(s): EE4600 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4620 - Digital Integrated Circuit Design with PLDs and FPGAs Credit Hour(s): 3 Digital design with behavioral level VHDL; application of VHDL to the design, analysis, and synthesis of digital integrated circuits; field programmable gate arrays (FPGAs) and design and application of digital integrated circuits using FPGA’s. CAD tools, devices and boards will be used in the lab portion of the course. Topics include registers, counters, memory devices, register-level design, microcomputer system organization. Students must show competency in design of digital systems. Prerequisite(s): (Undergraduate level EE 2000 Minimum Grade of C and Undergraduate level EE 2000L Minimum Grade of C) or Undergraduate level CEG 3320 Minimum Grade of D Corequisite(s): EE4620L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4620L - Digital Integrated Circuit Design with PLDs & FPGAs Lab Credit Hour(s): 1 Realizations, testing and evaluation of digital integrated ciricuts with particular emphasis on programmable logic devices. Department Managed Prerequisite(s): (Undergraduate level EE 2000 Minimum Grade of C and Undergraduate level EE 2000L Minimum Grade of C and Undergraduate level EE 3210 Minimum Grade of C) or Undergraduate level CEG 3320 Minimum Grade of D Prerequisite(s): (Undergraduate level EE 2000 Minimum Grade of D and Undergraduate level EE 2000L Minimum Grade of D) or Undergraduate level CEG 3320 Minimum Grade of D Corequisite(s): EE4620 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4700 - Introduction to MEMS Credit Hour(s): 3 Overview of basic sensor technology including operating principles, electronics and measurement principles. Prerequisite(s): Undergraduate level EE 4100 Minimum Grade of D or Undergraduate level PHY 3150 Minimum Grade of D Corequisite(s): EE4700L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4700L - Introduction to MEMS Lab Credit Hour(s): 1 Experimental design, realization and testing of MEMS devices with emphasis on sensing applications. Department Managed Prerequisite(s): Undergraduate level EE 4100 Minimum Grade of D or Undergraduate level PHY 3150 Minimum Grade of D Corequisite(s): EE4700 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4730 - Wireless Communication Credit Hour(s): 3 Overview of wireless communication: cellular network concept, wireless communication channel and multi-path fading, digital modulation/demodulation techniques for wireless communication, performance analysis, equalization, diversity and RAKE receiver, spreading spectrum technology and CDMA, cognitive radio and dynamic spectrum access, and wireless communication system simulation. Prerequisite(s): Undergraduate level EE 4210 Minimum Grade of D and Undergraduate level EE 3260 Minimum Grade of D Corequisite(s): EE4730L Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4730L - Wireless Communication Laboratory Credit Hour(s): 1 Application-rich environment that realizes the important modulation, demodulation and decision schemes that are the foundation of wireless communication. Department Managed Prerequisite(s): Undergraduate level EE 3260 Minimum Grade of D and Undergraduate level EE 4210 Minimum Grade of D Corequisite(s): EE4730 Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4750 - Introduction to Radar Systems Credit Hour(s): 3 Study of the radar equation, antenna patterns, target cross sections and system losses, radar measurements, pulse Doppler and coherent techniques, detection probability and signal-to-noise ratio, side lobe clutter, synthetic arrays, and pulse compression techniques. Prerequisite(s): Undergraduate level EE 4000 Minimum Grade of D Enrollment Restrictions: Must be enrolled in the following Classifications: Senior. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4780 - Coding Theory Credit Hour(s): 3 Essentials of error-correcting codes, including methods for efficient and accurate transfer of information. Perfect and related codes, linear and cyclic codes, BCH codes, Reed-Muller codes, Reed-Solomon cods, Self-dual codes, weight enumerators and bounds. Prerequisite(s): Undergraduate level MTH 2530 Minimum Grade of D Level: Undergraduate Schedule Type(s): Lecture
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EE 4800 - Undergraduate Special Topics in Electrical Engineering Credit Hour(s): 1 to 4 Undergraduate special topics in electrical engineering. Topics vary. Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4800L - Special Topics in Electrical Engineering Lab Credit Hour(s): 1 Special topics in electrical engineering lab. Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lab
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EE 4810 - Full-Time Curricular Practical Training in Electrical Engineering Credit Hour(s): 1 Practical work experience in undergraduate level electrical engineering. Level: Undergraduate Schedule Type(s): Internship Course attributes: Department Approval Required |
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EE 4820 - Part-Time Curricular Practical Training in Electrical Engineering Credit Hour(s): 1 Practical work experience in undergraduate level electrical engineering. Level: Undergraduate Schedule Type(s): Internship Course attributes: Department Approval Required |
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EE 4830 - Internship in Electrical Engineering Credit Hour(s): 1 Practical work experience in undergraduate level electrical engineering. Level: Undergraduate Schedule Type(s): Internship Course attributes: Department Approval Required |
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EE 4840 - Introduction to Machine Learning Credit Hour(s): 3 Introduction to the field of probabilistic machine learning. Examples are drawn from sensor signal exploitation, biology, text processing, computer vision, and robotics. Key techniques are demonstrated and implemented in MATLAB. Prerequisite(s): Undergraduate level EE 3260 Minimum Grade of D or Undergraduate level ISE 2211 Minimum Grade of D or Undergraduate level STT 3630 Minimum Grade of D Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture
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EE 4910 - Electrical Engineering Senior Design Project I Credit Hour(s): 3 A project-oriented design course integrating design methodology with the principles of major electrical engineering disciplines. Students from working groups, define design projects and select faculty advisors according to their interests, needs and knowledge bases. Integrated Writing course. Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture Course attributes: Department Approval Required, Integrated Writing |
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EE 4920 - Electrical Engineering Senior Design Project II Credit Hour(s): 3 A project-oriented design course integrating design methodology with the principles of major electrical engineering disciplines: project planning and management, design specifications, implementation, testing and evaluations, electronic documentation, written and oral reports. Integrated Writing course. Prerequisite(s): Undergraduate level EE 4910 Minimum Grade of D Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Lecture Course attributes: Integrated Writing |
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EE 4990 - Special Problems in Electrical Engineering Credit Hour(s): 1 to 3 Special problems in advanced engineering. Topics vary. Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Undergraduate Schedule Type(s): Independent Study
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EE 5000 - Solid State Materials for Electronics, Photonics and MEMS Credit Hour(s): 3 Focuses on the essential physical parameters of solids that make devices so important: elastic and thin-film properties (i.e. MEMS devices); electromechanical, piezoelectric and ferroelectric properties; paramagnetism and ferromagnetism; electron transport properties (metals and semiconductors); electronic bandgap and bandgap-engineering; and the essential role of crystallinity in enhancing desired parameters (i.e. dielectric function in ferroelectrics or electron mobility in semiconductors). Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 5010 - Circuit Analysis I Credit Hour(s): 3 The student will have the ability to apply Kirchhoff’s laws, an understanding and ability to apply Thevenin and Norton’s theorems, analyze and design circuits with operational amplifiers, analyze 1st and 2nd order circuits, apply linear differential equation techniques, and have an understanding of sinusoidal steady state analysis. Corequisite(s): EE5010L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture
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EE 5010L - Circuit Analysis I Lab Credit Hour(s): 1 To assist students with learning to apply Kirchhoff’s laws, to have an understanding of and an ability to apply Thevenin and Norton’s theorems, to analyze and design circuits, to analyze 1st and 2nd order circuits, to apply linear differential equation techniques, and to have an understanding of sinusoidal steady state analysis. Corequisite(s): EE5010 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lab
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EE 5030 - Circuit Analysis II Credit Hour(s): 3 Circuit review, alternating current concepts, computer-aided circuit analysis, two-port networks, power. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture
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EE 5030L - Circuit Analysis II Laboratory Credit Hour(s): 1 Application of AC concepts, computer-aided circuit analysis, two-port networks, and power theory. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lab
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EE 5210 - Linear Systems I Credit Hour(s): 3 Continuous-time signals and systems, time domain analysis, Laplace transform, Fourier series, Fourier transform, Bode analysis. Various approaches to system and signal modeling are also discussed. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 5260 - Random Signals and Noise Credit Hour(s): 3 Provides a practical introduction to the concepts of random events, characterization of stochastic signals, first and second order moment descriptions of random processes, and input/output descriptions of random signals and noise in linear systems. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 5310 - Electronic Devices and Circuits Credit Hour(s): 3 Introduction to, theory of and application of basic solid-state electron devices for discrete and integrated circuits. Fundamentals necessary for comprehension and further study of modern engineering electronics. Major topics include carrier flow in semiconductors, p-n junction theory, semiconductor diodes, bipolar junction transistors, field-effect transistors, biasing, introduction to amplifiers, and frequency response. Corequisite(s): EE5310L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 5310L - Electronic Devices and Circuits Laboratory Credit Hour(s): 1 Applications of diodes and transistors in analog circuits, design of bias circuits transistors. Corequisite(s): EE5310 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 5320 - Digital System Design Credit Hour(s): 4 Basics of Digital Computer Hardware and Design. Topics include switching algebra and switching functions, logic design of combinational and sequential circuits, storage elements, register-level design, and instrumentation. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture
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EE 5320L - Digital System Design Laboratory Credit Hour(s): 0 Required laboratory for CEG 5320. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lab
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EE 5450 - Introduction to Electromagnetics Credit Hour(s): 3 Electrostatics and magnetics; induced electro-motive force; Maxwell equations and their physical interpretation; Transmission lines; Radiation and antennas Corequisite(s): EE5450L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 5450L - Electromagnetics Laboratory Credit Hour(s): 1 Laboratory supporting EE 5450. Students will experience hands on learning in lab environment. Corequisite(s): EE5450 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lab
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EE 6000 - Linear Systems II Credit Hour(s): 3 Covers discrete time signals and systems, the z-Transform, input/output theory and discrete Fourier transform, IIR and FIR filter design, relationships, and sampling. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6100 - Nano-Fabrication of Integrated Solid State Devices Credit Hour(s): 3 This course covers the history, design, and fabrication of CMOS and micro-electro-mechanical systems (MEMS). Typical fabrication methods cover CMOS, front-end-of-line (FEOL), back-end-of-line (BEOL), surface and bulk micromachining. Typical VLSI devices and selected RF MEMS are covered. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6120 - Industrial Controls and Automation Credit Hour(s): 3 For each student to gain a working knowledge of industrial controls and automation. Focus is on developing an understanding of wiring diagram creation, hardware selection, and programmable logic controller design and operation. Corequisite(s): EE6120L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6120L - Industrial Controls and Automation Laboratory Credit Hour(s): 1 Laboratory supporting EE 6120. Students will experience hands on learning in lab environment. Corequisite(s): EE6120 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6130 - Continuous Control Systems Credit Hour(s): 3 Introductory course providing students with a general control background. Major topics include block diagrams and signal-flow graphs, electromechanical modeling, time response, root locus, and design of PID controllers. Corequisite(s): EE6130L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6130L - Continuous Control Systems Laboratory Credit Hour(s): 1 Laboratory supporting EE 6130. Students will experience hands on learning in lab environment. Application and testing of control systems theory with electromechanical systems. Corequisite(s): EE6130 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6170 - Digital Control Systems Credit Hour(s): 3 Samples spectra and aliasing, analysis and design of digital control systems using root locus and transform techniques, discrete equivalents of continuous controller and quantization effects. Corequisite(s): EE6170L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6170L - Digital Control Systems Laboratory Credit Hour(s): 1 Laboratory supporting EE 6170. Students will experience hands on learning in lab environment. Application and testing of control systems theory with electromechanical systems. Corequisite(s): EE6170 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6190 - Introduction to Intelligent Control Systems Credit Hour(s): 3 Foundations of fuzzy set theory, system modeling using fuzzy rules, structure of fuzzy controllers and PID fuzzy controller design. Also included are neural network foundations, single layered/multi-layered perceptions, learning rules, basics of adaptive controls and adaptive neural control. Corequisite(s): EE6190L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6190L - Introduction to Intelligent Control Laboratory Credit Hour(s): 1 Laboratory supporting EE 6190. Students will experience hands on learning in lab environment. Corequisite(s): EE6190 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6210 - Digital Communication Credit Hour(s): 3 This course provides an introduction to digital communications. Topics include: analog communication vs digital communication, source coding, pulse shaping, digital moducation/demodulation, signal detection and optimal receiver, simulation of digital communication system is an integral part of this course. Corequisite(s): EE6210L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6210L - Digital Communication Laboratory Credit Hour(s): 1 Laboratory supporting EE 6210. Students will experience hands on learning in lab environment. Corequisite(s): EE6210 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6360 - Digital Signal Processing: Theory, Application and Implementation Credit Hour(s): 3 Introduces principles and applications of digital signal processing (DSP) from the design and implementation perspective. Introduction to advanced digital signal processing design concepts. Focus on time and frequency domain algorithms. Methods include multirate signal processing. Filter banks, time-frequency analysis, and wavelets. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6400 - Nanoscience and Nanotechnology Credit Hour(s): 3 Introduction to nanoengineering, nanoscience and nanotechnology. Topics include introduction to quantum mechanics, fabrication, characterization, materials, electronic properties, optical properties, magnetic properties, devices, MEMS, NEMS. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture/Lab Combination
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EE 6420 - Microwave Engineering I - Passive Components Credit Hour(s): 3 Transmission line theory and application wave propagation in rectangular waveguides, microwave network analysis, matching network, design of microwave filter and resonator, and introduction of electromagnetic compatibility. Corequisite(s): EE6420L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6420L - Microwave Engineering I Passive Components Laboratory Credit Hour(s): 1 Laboratory supporting EE 6420. Students will experience hands on learning in lab environment. Corequisite(s): EE6420 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6440 - Electronic Integrated Systems Credit Hour(s): 3 Theory and applications of linear integrated circuits. Topics include bipolar and field effect transistor analysis and design, multi-stage and feedback amplifiers, ideal and real operational amplifiers, frequency response and compensation, active filters, comparators, and waveform generators. Corequisite(s): EE6440L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6440L - Electronic Integrated Systems Laboratory Credit Hour(s): 1 Laboratory supporting EE 6440. Students will experience hands on learning in lab environment. Corequisite(s): EE6440 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6460 - Microwave Engineering II - Active Components and Circuits Credit Hour(s): 3 Fundamental of RF active components; Design impedance matching network; microwave transistor amplifier design; Microwave transistor oscillator and mixer design; Introduction to microwave systems. Corequisite(s): EE6460L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6460L - Microwave Engineering II - Active Components and Circuits Laboratory Credit Hour(s): 1 Required laboratory for EE 6460. Corequisite(s): EE6460 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6470 - Antenna Theory and Design Credit Hour(s): 3 Linear dipole antennas, antenna arrays, thin-wire antennas, moment method analysis examples (vee dipole, folded dipole, etc.), and broadband and frequency-independent antennas. Computer-aided design and analysis of wire antennas, feed networks, and antenna arrays using antenna CAD software. Corequisite(s): EE6470L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6470L - Antenna Theory and Design Laboratory Credit Hour(s): 1 Required laboratory for EE 6470. Corequisite(s): EE6470 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6480 - Remote Sensing Detectors and Systems Credit Hour(s): 4 Learn to analyze and design electro-optic (EO), infrared (IR), and microwave (radar) detection systems commonly used in remote sensing. Topics include remote sensing applications, electromagnetic wave theory, black body radiation, optics and imaging systems, EO, IR and radar detector design specifications, basic detection and estimation theory, and basic laboratory measurements with EO, IR and radar detectors. Department Managed Prerequisite(s): Graduate level EE 5450 Minimum Grade of C Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture/Lab Combination
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EE 6540 - Very Large Scale Integrated Circuit Design Credit Hour(s): 3 (Also listed as CEG 654.) Introduction to VLSI system design. Topics include CMOS devices and circuit design techniques, basic building blocks for CMOS design, fabrication processing and design rules, chip planning and layout, system timing and power dissipation, simulation for VLSI design, and signal processing with VLSI. Corequisite(s): EE6540L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6540L - Very Large Scale Integrated Circuit Design Laboratory Credit Hour(s): 1 Work station based experience designing asic devices for evaluation and testing. Corequisite(s): EE6540 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6550 - IC Hardware Security and Trust Credit Hour(s): 3 Students learn to analyze hardware security/trust and be able to implement various countermeasures to improve trust for hardware IC systems. Topics include IC design flow/lifecycle, trust issues at each stage of the IC lifecycle, attack methodologies that threaten HW IC systems, countermeasures to improve trust for HW IC systems, improving Trust for both ASIC and FPGA based systems. Department Managed Prerequisite(s): Undergraduate level EE 2000/L Minimum Grade of D and Undergraduate level EE 4540/L Minimum Grade of D or similar digital circuit design Corequisite(s): EE6550L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6550L - IC Hardware Security and Trust Lab Credit Hour(s): 1 Students learn to implement hardware security/trust detection methods using the techniques learned in class and implement countermeasures to improve trust for hardware IC systems through both ASIC and FPGA. Topics include the introduction of Xilinx Vivado and Cadence, and hardware Trojans insertion, hardware Trojans detection in various techniques. Department Managed Prerequisite(s): Undergraduate level EE 2000/L Minimum Grade of D and Undergraduate level EE 4540/L Minimum Grade of D or similar digital circuit design Corequisite(s): EE6550 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6560 - Introduction to Robotics Credit Hour(s): 3 An introduction to the mathematics of robots. Topics covered include coordinate systems and transformations, manipulator kinematics and inverse kinematics, Jacobians, dynamic and trajectory planning. Corequisite(s): EE6560L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6560L - Introduction to Robotics Laboratory Credit Hour(s): 1 Laboratory supporting EE 6560. Students will experience hands on learning in lab environment. Corequisite(s): EE6560 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6600 - Autonomous UAV Flight Control Credit Hour(s): 3 Introductory course of UAV autopilot design. Major topics include quadrotor dynamics and modeling, UAV sensors, stabilization and control of altitude, pitch/roll, and yaw, position navigation using orientation angles, waypoint navigation, integration and practical issues Department Managed Prerequisite(s): Graduate level EE 6130 Minimum Grade of D and Graduate level EE 6130L Minimum Grade of D and Graduate level EE 6130L Minimum Grade of D Corequisite(s): EE6600L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6600L - Autonomous UAV Flight Control Lab Credit Hour(s): 1 Laboratory supporting EE 4600/6600. Students will experience hands on learning in lab environment. Designing, implementing, and testing autonomous UAV flight control systems. Department Managed Prerequisite(s): Graduate level EE 6130 Minimum Grade of D and Graduate level EE 6130L Minimum Grade of D Corequisite(s): EE6600 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6620 - Digital Integrated Circuit Design with PLDs and FPGAs Credit Hour(s): 3 Digital design with behavioral level VHDL; application of VHDL to the design, analysis, and synthesis of digital integrated circuits; field programmable gate arrays (FPGAs); and design and application of digital integrated circuits using FPGAs. CAD tools, devices, and boards will be used in lab portion of the course. Topics include registers, counters, memory devices, register-level design, microcomputer system organization. Students must show competency in the design of digital systems. Corequisite(s): EE6620L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6620L - Digital Integrated Circuit Design with PLDs and FPGAs Laboratory Credit Hour(s): 1 Realizations, testing and evaluation of digital integrated circuits with particular emphasis on programmable logic devices. Corequisite(s): EE6620 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6700 - Introduction to MEMS Credit Hour(s): 3 This course offers an overview of basic sensor technology to provide the engineering student with practical working knowledge of sensors. Course will include basic operating principles, basic electronics and measurement principles. Corequisite(s): EE6700L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6700L - Introduction to MEMS Laboratory Credit Hour(s): 1 Experimental design, realization and testing of MEMS devices with emphasis on sensing applications. Corequisite(s): EE6700 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6730 - Wireless Communication Credit Hour(s): 3 This course provides an overview on various topics of wireless communication. Topics include cellular network concept, wireless communication channel and multi-path fading, digital modulation/demodulation techniques for wireless communication, performance analysis, equalization, diversity, and RAKE receiver, spreading spectrum technology and CDMA, cognitive radio and dynamic spectrum access, and wireless communication system simulation. Corequisite(s): EE6730L Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6730L - Wireless Communication Laboratory Credit Hour(s): 1 Required laboratory for EE 6730. Corequisite(s): EE6730 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6750 - Introduction to Radar Systems Credit Hour(s): 3 Introductory study of the radar equation, antenna patterns, target cross sections and system losses, radar measurements, pulse doppler and coherent techniques, detection probability and signal-to-noise ratio, sidelobe clutter, synthetic arrays, and pulse compression techniques. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6800 - Graduate Special Topics in Electrical Engineering Credit Hour(s): 1 to 4 Graduate special topics in electrical engineering. Topics vary. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 6800L - Special Topics in Electrical Engineering Laboratory Credit Hour(s): 1 Laboratory for EE 6800. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lab
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EE 6840 - Introduction to Machine Learning Credit Hour(s): 3 This course offers an introduction to the field of probabilistic machine learning. Examples are drawn from sensor signal exploitation, biology, text processing, computer vision, and robotics. Key techniques are demonstrated and implemented in MATLAB. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 7010 - Linear Systems Credit Hour(s): 3 Graduate level linear engineering methods in finite and infinite dimensions. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 7020 - Modern Control I Credit Hour(s): 3 State variable representations of continuous and discrete systems. Linear vector spaces and similarity transformations; elgen-analysis, time and transform domain solutions of linear state equations; controllability, observability, and stability of linear systems. Department Managed Prerequisite(s): (Undergraduate level EE 4310 Minimum Grade of D and Undergraduate level EE 4310L Minimum Grade of D) or (Graduate level EE 6130 Minimum Grade of D and Graduate level EE 6130L Minimum Grade of D) Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture
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EE 7030 - Computational Engineering Analysis Credit Hour(s): 3 Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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EE 7080 - Advanced Micro-Electro-Mechanical Systems (MEMS) Credit Hour(s): 3 Classical and advanced micro-sensing and actulation methods. Analytical and finite element methods utilized in investigating MEMS with computed results compared to published experimental data findings. Topics covered include bio-MEMs and microfluidics. Department Managed Prerequisite(s): Undergraduate level EE 4000 Minimum Grade of D or Graduate level EE 6000 Minimum Grade of D Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate Schedule Type(s): Lecture
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EE 7150 - Digital Image Processing Credit Hour(s): 3 Image representation, sampling/quantization, spatial/frequency concepts, image enhancement, color image theory, unitary image transforms, image data compression, image models, image coding, image restoration, feature extraction and description, and computer implementation of concepts and algorithms introduced. Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate Schedule Type(s): Lecture
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