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Course Criteria
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3.00 Credits
The course describes and investigates Local and Wide Area Networks. Description of topologies and protocols for ETHERNET and TOKEN RING. The OSI model and applicability to LANs. IPX/SPX and TCP/IP protocols. Protocols stacks for PC's. Server based and peer to peer networks. Network operating systems including NETWARE and NT Server Connectivity devices, hubs, bridges, switches, and routers. The Internet and Internet access. WANs including ATM, SONET, ISDN, and other high speed networks. Prerequisite: Senior Status*. (Cr. 3)
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3.00 Credits
Individual reading and research under faculty supervision. Acceptance by an electrical engineering faculty member and written permission of chair of department required. Prerequisite: Senior Status*. (Cr. 3)
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3.00 Credits
Topics of current interest to senior electrical engineering students. Subject matter will be announced in advance of semester offering. Written permission of the chair is required. Prerequisite: Senior Status*. (Cr. 3)
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3.00 Credits
Guided research. Prerequisites: Acceptance by Faculty Adviser and written permission of the chair is required. (Cr. 2.2)
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3.00 Credits
Evolution of computer architecture from the von Neumann concepts and the CISC machines to the RISC machines. Hardware and Software design methods. Processor design; Data representation and instruction sets. Control design: Hard-ware and Microprogrammed. Memory organization: Virtual, segmentation and cache; system organization: Bus control, I/O and operating systems. Prerequisite: Senior Status*. (Cr. 3)
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3.00 Credits
Introduction to wireless communication systems, the cellular concept & trunking. Spread Spectrum Systems: direct sequence & frequency hopping. Multiple access techniques (FDMA, TDMA, CDMA), speech coding, Power Control. Techniques for mitigation of propagation impairments: equalization, diversity & channel coding. Analysis & design of systems following global standards & protocols for various wireless communication systems such as PCS, Wi-Fi (IEEE 802.11), WiMax (IEEE 802.16), Mobile-Fi (IEEE 802.20), Bluetooth and mobile IP. Prerequisites: EECE 303, EECE 315. Corequisite: EECE 304.
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3.00 Credits
Advanced topics in either Electrical or Computer Engineering open to those students who are enrolled or are considering participation in a Seamless Masters program; subject matter will be announced in advance of course offering. Prerequisites: Senior Status.* (Cr. 3)
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3.00 Credits
Fundamentals of d-c circuits. Ohm's and Kirchhoff's Laws. Thevenin's and Norton's Theorems. Electrical Power. Systems of equations to describe electrical circuits. Computer programming using the C++ language. User-defined functions and data types. Structures, arrays, classes, and inheritance. The application of C++ to the analysis of linear and nonlinear electrical networks. Three hours a week. Fall. Prerequisites: ENGS 116 or CMPT 101. (Cr.
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3.00 Credits
Vector analysis. Gradient operator, line, surface and volume integrals. Divergence, Curl, divergence theorem, Stokes' theorem. Matrix operations, inversion techniques. Fundamentals of linear algebra, vector space, dimension, rank, eigenvalues and eigenvectors. Systems of equations. Three lectures. Fall. Prerequisite: MATH 201. (Cr. 3)
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4.00 Credits
Voltage and Current Waves on Transmission Lines. Maxwell's equations, Electromagnetic plane waves: propagation, transmission and reflection at boundaries of media. Elements of electromagnetic radiation. Four hours per week. Spring. Prerequisite: ELEC 307. (Cr. 3)
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