DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING COURSE PLAN Course Code: CS0322 Course Title: Advanced Networks Semester:VI Course Time:Jan-May 2010 Day Section A,B B,C,D Hour Timing Hour Timing Monday 2,4 9.20-10.10 11.10-12 00 2,4 9.20-10.10 11.10-12.00 Tuesday - - - - Wednesday - - - - Thursday - - - - Friday 5 1.30-2.20 5 1.30-2.20 Location:S.R.M.E.C-Tech Park Faculty Details: Section Name Office Office Hour Mail id A,B Mrs.M. Tech Monday to Friday POONKODI Park poovammale@ktr.srmuniv.ac.in B,C,D Ms.Y. ASNATH VICTY PAMILA Tech Park Monday to Friday phamila@ktr.srmuniv.ac.in
Required Text Books: TEXT BOOKS William Stallings, "High Speed Networks, Internet Performance and QoS", Prentice Hall, 2003 Kaveh Pahlevan and Prashant Krishnamoorthy, "Principles of Wireless Networks", Prentice Hall of India, 2006 Adrian Farrel, "The Internet and its Protocols" First India Reprint 2005, Elsevier publications REFERENCE BOOKS Larry L.Peterson and Bruce S.Davie, "Computer Networks" Third Edition, Elsevier Publications 2003 William Stallings, "Local & Metropolitan Area Networks", 6th edition, Prentice Hall, 2000 Behrouz A Forouzan, "Data Communication and Computer Networking", 3rd edition, 2004 ONLINE REFERENCES www.utdallas.edu/~metin/sunet www.rivier.edu/faculty/vriabov http://ce.sharif.edu/courses/ http://williamstallings.com/hsnet2e.html Prerequisite : NIL Objectives IPV4 and IPV6 protocols routing Resource allocation and service management Network security and example security systems Network management and its protocols Advanced network protocol applications
Assessment Details Test Schedule Cycle Test I : 10 Marks Surprise Test I : 8 Marks Cycle Test II : 10 Marks Surprise Test II : 7 Marks Model Exam : 15 Marks S.No. DATE TEST TOPICS DURATION 1 Cycle Test - I Unit I & II 2 periods 2 Cycle Test - II Unit III & IV 2 periods 3 Model Exam All 5 units 3 Hrs Course outcome At the end of the course, student will be able to understand the concepts of advanced computer networks and TCP/IP protocols and also security and network management aspects. Detailed Session Plan HIGH SPEED NETWORKS Introduction - Protocols and Architecture - TCP and IP - High Speed Networks - Frame relay- ATM - High Speed LANs Performance modeling and estimation - Queuing analysis - self similarity and self similar traffic. Sessi on No. 1,2 3 Topics to be covered Time (min) Ref Teaching Method Testing Method Introduction, Protocols and Architecture, TCP and IP Brain storming High Speed Networks 4 Frame relay 5,6 High Speed LANs Performance modeling and estimation 7 8 Queuing analysis Self similarity and self similar traffic
CONGESTION, TRAFFIC MANAGEMENT AND INTERNET ROUTING Congestion control in data networks and internets - Link level flow and error control - TCP traffic control - Traffic and Congestion control in ATM Networks - Internet routing - graph theory and least cost paths - Interior routing protocols 9,10 11,12 Congestion control in data networks and internets Link level flow and error control TCP traffic control Brain storming 13 Traffic and Congestion control in ATM Networks 14 15 Internet routing Surprise Test Graph theory and least cost paths - Interior 16,17 routing protocols PRINCIPLES OF WIRELESS NETWORK OPERATION Network planning - topologies - fundamentals - signal to interference ratio calculation - capacity expansion techniques - network planning for CDMA systems - Wireless network operations - mobility - radio resources and power management - security. Network planning - topologies 18,19 20 21,22 23,24 25 26 Fundamentals - signal to interference ratio Surprise Test calculation, capacity expansion techniques - network planning for CDMA systems - Wireless network operations - mobility Radio resources and power management - Security LOCAL AND BROADBAND AND AD HOC NETWORKS Introduction WLANs - IEEE 802.11 WLANs - - IEEE 802.11 WLANs - Adhoc Networking and WPAN - Wireless geolocation systems architecture. 27 28,29 30,31,33 34,35,36 Introduction WLANs IEEE 802.11 WLANs WLANs - Adhoc Networking and WPAN Wireless geolocation systems architecture. Assignment NETWORK MANAGEMENT Network Management - Choosing a configuration method - Management Information Base - SNMP - XML - CORBA -choosing a configuration protocol - COPS. Advanced Applications - IP encapsulation - VPNs - Mobile IP - Header Compression - Voice over IP - IP and ATM IP over dial-up links.
Case Study: Design of Cluster Networks. 37 38,39 40,41 42,43 Network Management - Choosing a configuration method 50 T3 BB, Management Information Base - SNMP XML, CORBA -choosing a configuration protocol COPS 50 T3 BB Advanced Applications - IP encapsulation - VPNs 50 T3 BB Mobile IP - Header Compression - Voice over IP - IP and ATM IP over dial-up links. 50 T3 BB 44,45 Case Study: Design of Cluster Networks. 50 T3 BB Assignment BB Black Board