Routing Protocols to Minimize the Number of Route Disconnections for Communication in Mobile Ad Hoc Networks

Abstract

The high-level contribution of this paper is the design and development of a node-disjoint multi-path extension for the Location Prediction Based Routing protocol (referred to as LPBR-M). LPBR-M reduces the number of global broadcast multi-path route discoveries. Simulations have been conducted with both flooding and DMEF as the broadcast route discovery strategies. We compared the performance of LPBR-M with that of the link-disjoint path based AODM and the node-disjoint path based AODVM multi-path routing protocols. LPBR-M achieves the longest time between successive route discoveries and the lowest control message overhead. Also, the LPBR-M multi-paths incur hop count that is very much equal to those obtained with the minimum-hop based AODVM and AODVM routing protocols. Moreover, DMEF helps each of the multi-path routing protocols to determine a set of node or link disjoint paths that exist for a long time and at the same time does not increase the source-destination hop count appreciably. When used with DMEF, each of the multi-path routing protocols incurred a lower energy spent per route discovery, compared to flooding.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2009

Accession Number

ADA509713

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