Abstract:
Mobile ad hoc networks (MANETS) are a set of nodes connected to each other in peer
to peer fashion. As MANETs have challenging characteristics such as mobility and
limited energy, traditional existing routing protocols are not very efficient. Therefore,
the routing problem designated to find and maintain an optimal route between two nodes
is not very straight forward. In this work, we present SDODV, a new smart and dynamic
on-demand distance vector routing protocol for mobile ad hoc networks that addresses
the shortcomings of existing routing protocols. Our proposed adaptive algorithm
increases effectively the lifetime of the built network by considering the network
topology when establishing a route. It monitors the traffic load, nodes mobility,
neighborhood density and battery power to adjust the routing of packets accordingly.
This protocol is based on the distributed reinforcement learning approach and on the
traditional AODV. SDODV improves the quality of service because its chooses the
shortest and the more stable path and it considers mobility, bandwidth and the power of
the devices as well. Experimental results prove that SDODV out-performs shortest path
and reduces the energy consumption.
