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Course Criteria
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3.00 Credits
Interaction between light and matter; laser oscillation and examples of specific laser systems; diode lasers; Q switching and mode locking; detection of optical radiation. Students are expected to have completed one or more junior or senior level courses in electromagnetics before enrolling in this course.
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3.00 Credits
Advanced topics in fiber optics, including optical waveguide theory, waveguide devices, optical fiber amplifiers, optical nonlinear effects, and advanced optical fiber designs and applications. Students are expected to have completed courses comparable to ECE 3800, ECE 3810, and ECE 4270 or ECE 4300 before enrolling in this course.
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3.00 Credits
Advanced theories of photonics and their applications in the development of photonic sensors. Topics include fundamental waveguide theories, lasers, optoelectronics, photonic crystals, plasmonics, laser-material interactions, optical resonance and optical spectroscopy. The theories are explored for various applications with specific interests in photonic sensing and optical imaging.
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3.00 Credits
Integral equation formulation in electromagnetics, solution techniques, moment methods and application to practical problems. Preq: ECE 8300 or consent of instructor.
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3.00 Credits
Semiconductor device physics emphasized rather than circuits; detailed analysis of the p-n junction, traps, surface states and conduction processes, and devices; analysis and models of Schottky diodes, MIS diodes, MOSFETs, charge coupled devices and solar cells; charge control concepts, transit time effects, surface-type devices and practical aspects of device processing. Students are expected to have completed courses comparable to ECE 4040 and ECE 4060 before enrolling in this course.
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3.00 Credits
Fundamental issues that arise in the composition of logic elements into computer systems; design and analysis of processors, busses, memory hierarchies, communications controllers and associated software. Students are expected to have completed a course comparable to ECE 4290 before enrolling in this course.
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3.00 Credits
Digital filter design; discrete Hilbert transforms; discrete random signals; effects of finite register length in digital signal processing; homomorphic signal processing; power spectrum estimation; speech processing, radar and other applications. Students are expected to have completed a course comparable to ECE 4670 before enrolling in this course.
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3.00 Credits
Application of digital signal processing techniques to problems related to speech synthesis, recognition and communication; digital models and representations of speech wave forms; Fourier analysis; homomorphic processing; linear predictive coding; algorithms for recognizing isolated words and continuous speech; man-machine communications by voice. Students are expected to have completed a course comparable to ECE 4670 before enrolling in this course.
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3.00 Credits
Review of fundamental concepts, issues and algorithms in image processing. Includes image formation, file formats, filters, edge detection, stereo, motion and color. Students are expected to have completed a course comparable to ECE 4670 before enrolling in this course.
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3.00 Credits
Protocols, modeling and analysis of telecommunication networks with emphasis on quantitative performance modeling of networks and systems using packet switching and circuit switching techniques. Students are expected to have completed a course comparable to CPSC 8250 or ECE 4380 before enrolling in this course.
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