Evaluation of Maximum Lifetime Power Efficient Routing in Ad hoc Network Using Magnetic Resonance Concept

Background: A mobile Ad-hoc Network is a network in which each node is independent of all other nodes of the network. In MANETs, nodes do not have proper infrastructure. The power source of the Mobile Ad-hoc network is battery power. As we all know, battery power has a certain limit and problems. Objective: The main objective of this manuscript is to resolve the power problem of nodes of mobile ad hoc networks and increase the lifetime of the network. Methods: This paper implements the concept of wireless power transfer between the nodes of Adhoc network and transfers the power to these nodes wirelessly and uses the maximum lifetime power efficient routing algorithm (MLPER) to reduce the consumption of power used by the nodes. The wireless power transfer can be achieved with the help of one type of near-field techniques called magnetic resonance which works at the same resonance frequency. This technique is nonradiative in nature. Results: This paper reduces the problem of power of the ad hoc network nodes nearly 70 to 80 % from the traditional concept used for lifetime optimization of these nodes. Conclusion: In this manuscript, performance optimization can be analysed with the help of AODV (Ad hoc On-Demand Distance Vector Routing Protocol) on-demand routing protocol. This manuscript shows that the proposed algorithm gives significant better results than AODV protocol with some performance metrics. We revised some patents relating to Wireless power transfer.