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Course Criteria
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1.50 Credits
Credits: 1.5 Introduces Personal Communication Systems (PCS). Topics include multiple technical layers of the PCS systems; data link level and network layer protocols, including implementation; mobile station operation and base station operation; and how voice and data services work. Also discusses vital issues of user authentication, privacy, and data or voice encryption. Prerequisites TCOM 500, 501, 551, and 552 or equivalent. Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 The Internet Protocol (IP) Suite: principles, protocols, and architecture; Internet working; Internet addressing; IP; routing protocols (RIP, OSPF, BGP); Internet Control Message Protocol; Internet Group Management Protocol; User Datagram Protocol; Transmission Control Protocol; Client-Server Model; Domain Name System; Socket Interface; Internet applications (TELNET, FTP, SNMP, HTTP); Internet security; Internet multicasting; quality-of-service in the Internet (RSVP, DiffServ, MPLS); Mobile IP; Next Generation Internet (Ipv6) Prerequisites TCOM 501 and 502 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 Fundamentals of application engineering for Client/Server (C/S) Internet environments. Review of C/S application architectures and system perspective on C/S middleware. Study of web-based middleware, distributed data managers and SQL middleware, distributed transaction processing middleware, and C/S object technology. Prerequisites TCOM 500 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 Introduction and overview of current developments in Optical Communication Networks. Emphasizes underlying technologies that make all-optical networks possible. Specific topics include components needed for Wavelength Division Multiplexed Systems and Dense Wavelength Division Multiplexed Systems; tunable wavelength lasers, wavelength add/drop multiplexers, space division switching, and wavelength-routing networks; optical LAN, MAN, and WAN concepts; passive and active wavelength filters, switches and routers; free-space optical networks. Prerequisites TCOM 503 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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3.00 Credits
Credits: 3 Basic switching techniques and protocols for low and high-speed digital packet networks (Ethernet, Frame Relay, ATM, X.25) are taught within a half semester lecture series, followed by hands-on laboratory for remainder of semester. Real-life scenarios taught in the laboratory element through exercises that involve configuring switches and routers. Prerequisites TCOM 501 and 502 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 1.5
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3.00 Credits
Credits: 3 Internet Protocol (IP) routing overview; static routing; dynamic routing; default routing; access lists; route redistribution; RIP, OSPF, IGRP, EIGRP, IS-IS, and BGP protocols submitted for comment. Real-life scenarios taught in laboratory element through exercises that involve configuring routers as network elements. Prerequisites TCOM 501, 502, and 509 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 1.5
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1.50 Credits
Credits: 1.5 Background in long-range navigation developments; early global systems; space-based systems; GPS and GLONASS systems; system architecture; spacecraft and Earth station characteristics; design concepts of the CA and P GPS signal modes; frequencies, modulation, and other design aspects; clock issues; range and accuracy calculations and limitations; advanced concepts. Prerequisites TCOM 500 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 Introduction to radiowave propagation effects in wireless communications systems. Propagation effects on terrestrial point-to-point (line of sight), satellite (fixed service, mobile, and direct broadcast), and cellular services are evaluated. Clear air, multipath (atmospheric and terrestrial), diffraction, refraction, tropospheric and ionospheric scintillation, rain attenuation, ice crystal and rain depolarization, and low angle fading effects are covered. Impact of climate and path geometries on fade margin assessed, and mechanisms for reducing potentially adverse effect of propagation conditions discussed. Prerequisites TCOM 500 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 Introduction to post-second generation cellular systems; benefits and features of third generation (3G) systems; review of air interface standards currently approved for 3G; review of 3G technologies; analysis of competing multiple access methods; transition plans and backward compatibility between 2G, 21/2G, and 3G systems; possible fallback plans. Prerequisites TCOM 506, 551, and 552. Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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1.50 Credits
Credits: 1.5 Concept of transporting voice over Packet Switched Network; typical VoIP network scenarios (campus, multisite private network, calling nationwide and international; communications protocols for VoIP (RTP, RTCP, RFC 1889, H.323); conferencing and security issues; quality issues (delay, mean opinion scores); VoIP network design. Prerequisites TCOM 501, 502, and 509 Hours of Lecture or Seminar per week 1.5 Hours of Lab or Studio per week 0
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