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Course Criteria
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4.00 Credits
Focuses on advanced topics related to computer engineering technology to be selected by instructor.
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4.00 Credits
Introduces the fundamental physical principles for the electromagnetic radiation from antennas and presents the most important mathematical techniques for the analysis of the radiation. Applies these principles and techniques to practical antenna systems. Starts with the fundamental parameters of the antennas. Introduces the vector potentials and the theorems that are needed for the derivation of the radiation integrals from Maxwell's equations. Covers the application of these theories to practical antennas and antenna systems, including linear wire antennas, loop antennas, linear and two-dimensional planar phased arrays, patch antennas, frequency-independent antennas, and aperture and reflector antennas. Presents impedance matching techniques.
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4.00 Credits
Addresses novel applications of analytical and engineering techniques for RF/microwave circuits and networks. Presents fundamental concepts, essential mathematical formulas and theorems, and engineering applications. Emphasizes transmission lines and smith charts, microstrip lines, S-parameters and network theory, impedance matching and tuning, and novel RF devices such as resonators, power dividers, and filters. Introduces active networks. Provides ample examples to ensure that the participants fully appreciate the power of the materials described in the class.
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4.00 Credits
Presents the basic optical concepts necessary for an understanding of current and future optical communication, remote sensing, and industrial and biomedical systems. Topics include geometrical optics, polarized light, diffraction, and interference. Studies lasers and other light sources, optical fibers, detectors, CCD cameras, modulators, and other components of optical systems. Presents applications to specific systems such as fiber-optic communication, medical imaging systems, fiber-optic sensors, and laser radar.
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4.00 Credits
Introduces biomedical signal processing and biomedical imaging and image processing. Specific topics covered depend on instructor and/or student's areas of interest and are drawn from a variety of application areas. They include the nature and processing of intrinsic signals such as cardiac and neurological bioelectric signals, natural processing of external signals such as auditory and visual processing, and topics related to a variety of medical and biological imaging modalities.
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4.00 Credits
Presents the theory and practice of digital signal processing. Topics include review of discrete-time signals, systems, and the Z-transform; sampling and quantization; Fourier transforms (DTFT, DFT, and FFT) with applications to fast convolution; design techniques for FIR and IIR digital filters; realization structures for digital filters and finite precision effects; fundamentals of multirate signal processing and filter-banks; and DSP applications.
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1.00 Credits
Accompanies ECE U666. Focuses on practical aspects of DSP by programming a digital signal processing chip in a high-level language using an integrated development and debugging environment. Topics include input/output operations via A/D and D/A converters, digital frequency synthesis, computation of discrete-time convolution, and design and implementation of both FIR and IIR filters.
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4.00 Credits
Retired August 31, 2006. Continues ECE U572. Advanced topics include maximum likelihood sequence detection, communication over fading channels and RAKE receivers, concatenated and turbo coding, iterative decoding, OFDM signaling, space-time codes, spread-spectrum communications, and modulation schemes with memory.
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1.00 Credits
Retired August 31, 2006. Offers additional advanced academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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1.00 Credits
Retired August 31, 2006. Offers additional advanced academic experience by exploring course-related topics in greater depth with the professor. Available only to courses approved by the University Honors Program.
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