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Course Criteria
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3.00 Credits
Agent and systems concepts to study sensors, actuators, controllers and communication networks, as well as their interactions. Theory, design and control of the integration of sensors, interfaces, actuators, microcontrollers. Use of computer networks as communication media in the mechatronics systems integration and control. Use of unmanned vehicle path tracking and teleoperation to illustrate the mechatronics agent and system concept and integration. Students can either take ECE 456 or ECE 556, but not both. These two courses are piggy-backed and cover similar material, yet ECE 556 has more demanding homeworks, project, and an exam that are at the graduate level.
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3.00 Credits
MOS capacitor and transistor regions of operation. Depletion and enhancement mode MOSFETs. MOSFET scaling, short and narrow channel effects. MOSFETs with ion-implanted channels. High field effects in MOSFETs with emphasis on recent advances in design of hit carrier suppressed structures. Small and large signal MOSFET models. State of the art in MOS process integration.
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3.00 Credits
Foundation for designing and using digital devices to accurately capture and display color images, spatial sampling, frequency analysis, quantization and noise characterization of images. Basics of color science are presented and applied to image capture and output devices.
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3.00 Credits
Design and implementation of embedded computer systems. The student will extend previous knowledge of the use of microcontrollers, C and assembly programming, real-time methods, computer architecture, simulation, interfacing, system development andcommunication networks. System performance is measured in terms of power consumption, speed and reliabiity. Efficient methods for project development and testing are emphasized.
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3.00 Credits
Provide insight into current compiler designs dealing with present and future generations of high performance processors and embedded systems. Investigate dataflow analysis and memory disambiguation, classical and parallelism enhancing optimizations, scheduling and speculative execution, and register allocation. Review of techniques used in current research compilers. Students may not take both 466 and 566 for credit.
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3.00 Credits
General introduction to computer networks. Discussion of protocol principles, local area and wide area networking, OSI stack, TCP/IP and quality of service principles. Detailed discussion of topics in medium access control, error control coding, and flow control mechanisms. Introduction to networking simulation, security, wireless and optical networking.
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3.00 Credits
Principles and issues underlying provision of wide area connectivity through interconnection of autonomous networks. Internet architecture and protocols today and likely evolution in future. Case studies of particular protocols to demonstrate how fundamental principles applied in practice. Selected examples of networked clinet/server applications to motivate the functional requirements of internetworking. Project required.
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3.00 Credits
Security policies, models, and mechanisms for secrecy, integrity, and availability. Basic cryptography and its applications; operating system models and mechanisms for mandatory and discretionary controls; introduction to database security; securityin distributed systems; network security (firewalls, IPsec, and SSL); and control and prevention of viruses and other rogue programs.
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3.00 Credits
Introduction to cellular communications, wireless local area networks, ad-hoc and IP infrastructures. Topics include: cellular networks, mobility mannagement, connection admission control algorithms, mobility models, wireless IP networks, ad-hoc routing, sensor networks, quality of service, and wireless security.
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3.00 Credits
Topics related to connection-oriented packet network architectures, such as: frame relay, the asynchronous transfer mode(ATM), multi-protocol label switching (MPLS), and generalized multi-protocol label swiching (GMPLS), signalling protocols, and related quality-of-service issues. Restricted to students in CSC,CPE,CNE,CNC,ORC,ORE.
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