Spring 2010, ICE 3025-44 Stephen Kim, Ph.D. March 3rd – June 11th, 2010 Wednesday and Friday 1:30-2:45 pm Room 21110 In general, there are details about low level protocols and standards including the related technologies in the data communication fields. So, it covers all the standard topics found in a typical introductory course in data communication such as transmission media, analog and digital signals, data transmissions, multiplexing. This course is designed to help the student understand: concepts of data communications, the differences, advantage, and disadvantages of different transmission media, analog and digital signals, modulation and demodulation techniques, and the need for error detection and correction. Dongsoo Stephen Kim, Ph.D. Associate Professor at Indiana University Visiting/Research Professor at SKKU Contact Room 83345, Research Center II dskim@iupui.edu or dongsoo.s.kim@gmail.com (031)299-4642 www.ece.iupui.edu/~dskim/ Moonsik Choi Office Hour TBA Contact Email: M.P.: cmszzang@skku.edu 010-4118-4172 Behrouz A. Forouzan, “Data Communications and Networking (4th ed.),” McGraw-Hill Higher Education, January 2007, ISBN# 007-125442-0 W. Richard Stevens , “TCP/IP Illustrated, Volume 1: The Protocols”, 1994, Addison-Wesley. Exams Homework/Quiz Attendance Projects 40% 25% 10% 25% Assignment and late submission Exams You MUST have a computer access offered by the School or your own PC. Plagiarism All exams are closed-book, closed-notes, and comprehensive to cover the material up to the point mentioned one week prior to the exam date. Computer use Assignments must be submitted at the beginning of the class on the due date. Late submissions will be accepted with 10% penalty per day up to 3 days. After those 3 days, a late submission will not be accepted. It is strongly recommended to discuss the class subjects with peers. All submission in this class must be done individually. Anyone who copies other’s work and whose work to be copied will receive no credit for the submission. Group project The projects are group effort, but will be evaluated individually. Students will form a group of 5 persons. Each group submits one copy of the project report. Each member must complete a “Peer Rating” form and submit it to the instructor confidentially. Overview and introduction to communication networks and their topology ISO/OSI 7-layer reference model, protocols and services Digital transmission and media, Nyquist theorem, and Shannon capacity Line coding and decoding, transmission media: guided vs. unguided Switching networks, circuit-switched, packet switching, switch architecture. Error detection and correction, framing, ARQ, flow control, multiple access, local area network, wireless LAN SONET, WDM and circuit switching Addressing, Internet Protocol Suite, routing Congestion control and QOS Internet applications Advanced topics
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