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Course Criteria
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3.00 Credits
Analysis, design, and optimization of radio-frequency systems. The operation and characterization of RF components, fundamentals of noise and distortion, and system concepts including tools such as level charts and link budgets will be taught. Applications will include wireless communication systems and radar.
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3.00 Credits
An introduction to the analysis and design of adaptive systems with applications in the areas of communications, signal processing, and control. Topics include random signal models; theory of adaptation and performance measures; LMS and RLS algorithms; optimal filtering; adaptive equalization; interference cancellation; signal prediction; and system identification.
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3.00 Credits
Fundamentals of data communication networks. Emphasis on network algorithms and their performance. Topics include: layered network architecture, Link Layer protocols, high-speed packet switching, queueing theory, Local Area Networks, and Wide Area Networking issues, including routing and flow control.
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3.00 Credits
Special topics in electrical engineering will be offered to graduate students occasionally when the interest of the students and the availability of an instructor dictate. The syllabus must be approved by the electrical engineering faculty. Since the content of the course may change, a student may repeat this course for credit with the permission of the department head.
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3.00 Credits
Introduction to modern digital communication systems. Emphasis on modulation and detection techniques and their performance in the presence of noise.
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3.00 Credits
This course covers fundamentals of thermodynamics, chemistry, flow and transport processes as applied to energy systems. Topics include analysis of energy conversion in thermomechanical, thermochemical, electrochemical, and photoelectric processes in existing and future power and transportation systems, with emphasis on efficiency, environmental impact and performance. Systems utilizing fossil fuels, hydrogen, nuclear and renewable resources, over a range of sizes and scales are discussed. Applications include fuel reforming, hydrogen and synthetic fuel production, fuel cells and batteries, combustion, hybrids, catalysis, supercritical and combined cycles, photovoltaics, etc. The course also deals with different forms of energy storage and transmission, and optimal source utilization and fuel-life cycle analysis.
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3.00 Credits
Organization and design of computer systems hardware. Provides the basic knowledge required for understanding and designing standard and advanced computer architectures. Topics include: instruction set architectures, ALU design and computer arithmetic, memory organization, cache and virtual memories, controller design, pipelining and parallelism.
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3.00 Credits
This course provides an introduction to the design of control systems in the digital domain. Key topics will include D/A and A/D conversion, the Z-transform, state variable techniques, stability, controllability, and observability. Modern controller design techniques including pole placement design by state feedback will be considered.
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3.00 Credits
A study of significant topics or problems tied to the specific theme of the strand. Topics to be addressed will be drawn from any academic discipline other than English, History, or the disciplines associated with the Natural and Social Science strand classes.
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3.00 Credits
A study of significant topics or problems tied to the specific theme of the strand. Topics to be addressed will be drawn from any academic discipline other than English, History, or the disciplines associated with the Natural and Social Science strand classes.
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