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Data Communication

Data Communication. Spring 2010, ICE 3025-44 Stephen Kim, Ph.D. Schedule. March 3 rd – June 11 th , 2010 Wednesday and Friday 1:30-2:45 pm Room 21110. Synopsis.

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Data Communication

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  1. Data Communication Spring 2010, ICE 3025-44 Stephen Kim, Ph.D.

  2. Schedule • March 3rd – June 11th, 2010 • Wednesday and Friday 1:30-2:45 pm • Room 21110

  3. Synopsis • 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.

  4. Instructor • 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/

  5. Teaching Assistant • MoonsikChoi • Office Hour • TBA • Contact • Email: cmszzang@skku.edu • M.P.: 010-4118-4172

  6. Textbook • Behrouz A. Forouzan, “Data Communications and Networking (4th ed.),” McGraw-Hill Higher Education, January 2007, ISBN# 007-125442-0

  7.  Reference • W. Richard Stevens , “TCP/IP Illustrated, Volume 1: The Protocols”, 1994, Addison-Wesley. 

  8. Grading Policy • Exams 40% • Homework/Quiz 25% • Attendance 10% • Projects 25%

  9. Course Details • Assignment and late submission • 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. • Exams • 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 • You MUST have a computer access offered by the School or your own PC. • Plagiarism • 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.

  10. Topics • 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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