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Course Criteria
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3.00 Credits
The purpose of a computer vision system is to take data, usually in the form of one or more images, and produce information. This course covers the mainstream theories of computer vision used to build such systems. Several examples, such as optical character recognition, are implemented in assignments.
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3.00 Credits
Theory and analysis of transducers and related circuits and instrumentation. Generalized configurations and performance characteristics of instruments are considered. Transducer devices for measuring physical parameters such as motion, force, torque, pressure, flow, and temperature are discussed. Students are expected to have completed a course comparable to ECE 3210 before enrolling in this course. Additionally, students are expected to have completed, or be concurrently enrolled in, a course comparable to MATH 3110 or MATH 4340 when enrolling in this course..
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3.00 Credits
Introduction to optical fiber communications. Topics include optical fibers, optical sources, photodetectors, receivers, optical amplifiers, digital links, and nonlinear effects.
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3.00 Credits
An introduction to the fundamentals of optoelectronics and photonics. Topics include electromagnetic fields and waves, guided waves in dielectric waveguides, LEDs, laser oscillation and examples of laser systems, and detection of optical radiation. Students are expected to have completed courses comparable to ECE 3800 and 3810 prior to enrolling in this course.
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3.00 Credits
Introduction to electromagnetic compatibility concepts and techniques for students who will be designing or working with electronic systems when they graduate. Topics include electromagnetic interference and noise control, crosstalk and signal integrity, grounding, filtering, shielding, circuit board layout, lighting and electrostatic discharge protection. Students are expected to have completed a course comparable to ECE 3810 before enrolling in this course.
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3.00 Credits
Analysis of microwave networks comprising transmission lines, waveguides, passive elements, interconnects, and active solid state microwave circuits. Use of modern CAD tools to design RF/Microwave passive/active networks. Fabrication of typical circuits. Students are expected to have completed a course comparable to ECE 3810 before enrolling in this course. Additionally, students are expected to have completed, or be concurrently enrolled in a course comparable to MATH 3110 or MATH 4340 when enrolling in this course.
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3.00 Credits
Introduction to the basic materials in current microelectromechanical systems (MEMS), as well as the fundamental sensing and actuation mechanisms therein. Students also learn the basic fabrication techniques for bulk and surface micromachining, discuss the primary forces in MEMS devices, and study the basic micro mechanical structures and microfluidics. Students are expected to have completed courses comparable to CH 1020 and PHYS 1220 before enrolling in this course.
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3.00 Credits
Digital data transmission techniques, modems and communications channels, communications software and protocols, multiprocessors and distributed processing; concurrency and cooperation of dispersed processors.
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3.00 Credits
Covers the underlying principles of design for optical fibers in practical systems. Examines optical fiber as a wave-guide using wave optics and ray optics. Discusses design criteria for using mono- and multi-mode fibers. Other topics include fabrication, measurement. Students are expected to have completed a course comparable to ECE 3810 before enrolling in this course. Additionally, students are expected to have completed, or be concurrently enrolled in, a course comparable to MATH 4340 when enrolling in this course.
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3.00 Credits
Introduction to the design and performance analysis of local computer networks. Emphasizes performance analysis of representative multi-access procedures. Three common types of networks are considered in detail. Students are expected to have completed courses comparable to ECE 2720 and ECE 3170 before enrolling in this course.
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