Design and Development of Reliable Energy based Efficient Protocol for Improving Fault Tolerance in MANET

Abstract

In recent years, mobile unexpected networks offers new challenges and goals in fault tolerant computing space. Mobile nodes will communicate while not a hard and fast infrastructure. A study of analysis work on fault tolerance reveals that, fault tolerance is achieved with or while not information concerning neighbors. High quality of nodes ends up in path failures, that degrades the performance of networks and affects the whole network property. A theme termed as Reliable Stable Path Routing (RSPR) is planned for achieving fault tolerance level and most packet delivery rate. To balance the fault tolerance level and cargo equalisation, multipath routing with stability metric is planned. The planned approach improves the network life and network performance. supported the less packet loss rate, additional residual energy and transmission chance, reliable forwarding nodes square measure chosen. Packets square measure routed supported the placement of reliable nodes. a replacement channel is discovered for economical packet delivery with stability. within the end of the planned approach, location of the destination node is updated to all or any the reliable forwarding nodes. This update improves the fault tolerance, packet delivery chance and avoids the network load. Simulation results show that the planned protocol RSPR achieves higher performance in comparison with the present schemes LAER and CDN.