Abstract:
A mobile ad hoc network differs from wired networks in several respects. Routing
protocols are challenged by high mobility, low bandwidth, limited computing capability
and limited energy which are the key characteristics of mobile nodes. The protocols for
these networks must be designed to keep up with the drastically and unpredictably
changing network topology, with minimized message exchanges and utilization of scarce
network resources in an efficient manner.
Ad-hoc on demand Distance Vector Routing Protocol (AODV) is intended for use
by mobile nodes in an ad hoc network. The dynamism of a route makes it less stable and
hence less suitable for a network. The focus has been on enhancing the performance of
Ad Hoc on Demand Distance Vector (AODV) routing protocol by choosing Route
Fragility Coefficient (RFC) as its metric. This metric causes AODV to find a stable route.
The stable route is characterized as the one which has less dynamism and in which nodes
stay close to each other. Simulation results are provided to demonstrate improvement in
throughput and reduction in routing protocol overhead with increased mobility. The
performance metrics are measured by varying the maximum speed of the nodes and size
of the network.
