Final Year Projects in Mobile Wireless Networks

Wireless communications have become very pervasive. The number of mobile phones and wireless Internet users has increased significantly in recent years. Traditionally, first-generation wireless networks were targeted primarily at voice and data communications occurring at low data rates. Recently, the evolution of second- and third-generation wireless systems incorporates the features provided by broadband. In addition to supporting mobility, broadband also aims to support multimedia traffic, with quality of service (QoS) assurance. In the presence of different air interface technologies, and the need for interoperability has increasingly been recognized by the research community. GSM is commonly referred to as the second-generation mobile cellular system. GSM has its own set of communication protocols, interfaces, and functional entities. It is capable of supporting roaming, and carrying speech and data traffic. The third generation (3G) integrates cellular phones into the Internet world by providing high speed packet-switching data transmission in addition to circuit-switching voice transmission. In telecommunications, 4G is the fourth generation of cellular wireless standards. It is a successor to the 3G and 2G families of standards. It is expected to provide a comprehensive and secure all-IP based mobile broadband solution to laptop computer wireless modems, smart phones, and other mobile devices. Facilities such as ultra-broadband Internet access, IP telephony, gaming services, and streamed multimedia may be provided to users. The term 4G is used broadly to include several types of broadband wireless access communication systems, not only cellular telephone systems.

Related Area

  • Data Management in Wireless Mobile Environments
  • Data Management Issues in Mobile Environments
  • Caching of Data-Allocation, Invalidation and Replacement
  • Performance Analysis
  • Mobile IP Protocols
  • Route Optimization
  • IPv6 and Mobility Management
  • Connectivity with 3G Networks
  • Broadcast Scheduling for TDMA in Wireless Multihop Networks
  • Security and Fraud Detection in Mobile and Wireless Networks
  • Transport over Wireless Networks
  • TCP for Mobile Cellular Networks
  • Improving TCP in mobile environments
  • Random Early Detection Gateways for Congestion Avoidance
  • Data Broadcast- Data Scheduling, Air Indexing
  • Fair Scheduling in Wireless Packet Data Networks
  • Traffic Integration in Personal, Local, and Geographical Wireless Networks
  • Third-Generation Cellular Systems: UMTS
  • Wireless Media Access Control
  • Location Management in Cellular Networks
  • Handoff in Wireless Mobile Networks
  • WLAN Routing Through Cellular Network Infrastructure
  • Wireless Personal Area Networks and Ultrawide Band Communications
  • Multi-channel neighbor discovery
  • Traffic rate adaptation techniques in wireless networks
  • Forensic analysis in wireless networks
  • Routing in Delay tolerant networks
  • Routing in cooperative networks
  • Routing in Multiradio Multihop wireless networks
  • Neighbor discovery protocols
  • Multicast data delivery in wireless networks
  • Bandwidth allocation in wireless networks
  • Multicast routing in wireless mesh network
  • Back pressure routing in wireless networks
  • Multipath routing in wireless networks
  • Bio-inspired routing algorithms for wireless networks
  • Trust and incentive based wireless networks
  • Routing in ZigBee wireless networks
  • Authentication scheme in wireless networks
  • Bandwidth management in heterogeneous wireless networks
  • Channel allocation in wireless mesh network
  • Hybrid cellular and Adhoc network
  • Congestion control techniques in wireless networks
  • Buffer Management in wireless networks
  • Data confidentiality and integrity in wireless networks

Tools and Technologies

  • NS2
  • C++
  • TCL
  • Java
  • AWK
  • NAM
  • XGRAPH
  • Trace Graph
  • SUMO
  • MOVE
  • OSMMannasim
  • BonnMotion