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Course Criteria
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3.00 Credits
Spectral analysis and signal transmission channel design; amplitude, frequency, phase and pulse modulation systems; design of frequency-division and time-division multiplex systems; digital communication; noise and its effects in modulation systems. Prerequisites: EECE 3200, ENGR 3200.
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3.00 Credits
Classical and modern control system analysis and design; transfer functions, time domain analysis and design; frequency domain analysis and design; stability analysis with Root Locus, Bode and Nyquist plots; state variable analysis of linear dynamic systems. Prerequisites: EECE 3200, ENGR 2130, 3200. Co-requisites: EECE 3410, 4001.
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1.00 Credits
Experimental analysis of A.C. and D.C. servo systems, design of compensation and control systems, PLC and robotic applications. Prerequisites: EECE 3200, ENGR 2130, 3200. Co-requisites: EECE 3410, 4000.
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3.00 Credits
Basic principles of robotics and design of robot systems. Sensing position and velocity; concepts of robot coordinate systems, kinematics, dynamics, path control, velocity control, force control and compliance. Introduction to vision and robot programming languages. Prerequisite: EECE 4000.
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3.00 Credits
Discrete-time signal and systems; analysis and design of discrete-time systems in the frequency domain; realization of discrete-time systems; design of digital filters; Discrete-Fourier Transform (DFT) and Fast Fourier Transform (FFT) algorithms; Introduction to random signals and power spectral estimation. Prerequisites: EECE 3200, ENGR 3200. Co-requisite: EECE 3500.
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1.00 Credits
Principles and practice of electrical systems design. Projects carried out on a "team" basis. Systemand subsystem design goals, specifications, constraints, implementations, presentations and milestones. Practical implementation of several systems in different areas of Electrical Engineering. Prerequisites: Graduating Senior and Instructor Approval, EECE 3300, 3301, ENGR 3200. Corequisite: EECE 3500, 4000.
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3.00 Credits
Introduction to the design and layout of Very Large Scale Integrated (VLSI) circuits for complex digital systems; fundamentals of the VLSI fabrication process; and introduction to VLSI testing and structured design for testability techniques. Prerequisites: EECE 3100, 3101, 3300, 3301.(Check with department about frequency of offering).
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3.00 Credits
Computer hardware systems and the relevant aspects of software; various levels of design such as gate, register, and process levels, design of each major unit of the computer, memory and system organization. High performance computer systems are used as examples. Prerequisites: EECE 3100, 3101, ENGR 3200.
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3.00 Credits
A course which follows the software life cycle from the requirement, specification, and design phases through the construction of actual software.Topics include management of programming teams, design and programming methodologies, debugging aids, documentation, evaluation and measurement of software, verification and testing techniques, the problems of maintenance, and portability and application of CASE tools. Prerequisite: EECE 3061. Co-requisite: ENGR 3200.
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3.00 Credits
An introduction to hardware design of computers and "hardwired" and micro programmed standard peripherals.Modular design is emphasized.Topics include system buses and protocols, synchronous timing, and co-processing techniques. Prerequisites: EECE 3100, 3101, ENGR 3200. (Check with department about frequency of offering).
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