Module I (14 hours)
Computer Networks and the Internet-What is Internet-Network edge-network core-ISPs and internet backbones-Delay and loss in packet switched networks. Layered architecture-principles of application layer protocols-DNS-Socket programming with TCP/UDP-multimedia network-Examples of multimedia applications-audio and video compression-accessing audio and video through a web server-sending multimedia from a streaming server to a helper application-RTSP-RTP-RTCP-RSVP.
Module II (12 hours)
Wireless transmission: Frequencies for radio Transmission-signals-Antennas-Signal propagation-Spread spectrum-Cellular Systems-Specialized MAC:SDMA-FDMA-TDMA-CDMA-Comparison of S/F/T/CDMA.
Module III (12 hours)
Telecommunication systems-GSM-Mobile services-System Architecture-Radio interface-Protocolslocalization and calling-handover-Security- Wireless LAN-Infra red Vs Radio transmission-Infra Structure and Ad-hoc networks-IEEE 802.11-Hyper LAN-Bluetooth.
Module IV (12 hours)
Mobile internet-mobile IP network layer, mobile transport layer: IP and Mobile IP Network Layers Packet Delivery and Handover Management, Location Management, Registration, Tunneling and Encapsulation, Route Optimization, Dynamic Host Configuration Protocol. Indirect TCP, Snooping TCP, Mobile TCP, Other Methods of TCP – layer Transmission for Mobile Networks- WAP-WML

Text books
1. James F Kurose, Computer Networking-A Top Down approach featuring Internet, Third dition, Pearson Education
2. Schiller.J, Mobile Communication, Second Edition, Pearson Education
Reference books
1. William Stallings, Wireless Communication Network, Second Edition, Pearson Education.
2. Behrouz A Forouzan, Data Communications and Networking, Fourth Edition , Tata Mc Graw Hill T