International Journal of Computer Applications |
Foundation of Computer Science (FCS), NY, USA |
Volume 100 - Number 12 |
Year of Publication: 2014 |
Authors: Hitesh Kumar Rinhayat, Aakanksha Jain, Kamlesh Chandravanshi |
10.5120/17577-8161 |
Hitesh Kumar Rinhayat, Aakanksha Jain, Kamlesh Chandravanshi . Prolong the Life time of Network using Minimum Energy Consumption in MANET. International Journal of Computer Applications. 100, 12 ( August 2014), 19-23. DOI=10.5120/17577-8161
Mobile Ad hoc network (MANET) are self-configuring, individual nodes or routers networks that move about freely, organize themselves randomly and are interconnected through wireless links that when synchronized, form a dynamic topology. The nodes in required battery power for communication and it is very crucial matter to utilize the battery power of nodes efficiently in network. The battery replacement and charging is not possible in that kind of network and the insufficient battery lifetime imposes a limitation on the network performance. To take full utilization of the lifetime of nodes, traffic should be routed in a way that energy consumption is minimized. The energy efficient routing is improves the battery life and routing capability of nodes. In this research we proposed a new energy efficient routing scheme with AODV routing protocol to improve the reliability of data delivery and energy utilization. The proposed scheme is efficiently utilizes the energy of mobile nodes through variation in the energy of nodes on the basis of their radio range in network utilization. It means the nodes are only communicate to nearest neighbor by that the less amount of transmission and receiving energy is required for communication. In this approach the proposer energy utilization and consumption is possible that reduces the improper energy depletion of mobile nodes. The routing performance is measured through performance matrices and the proposed scheme is showing the much better performance as compare to normal energy routing with AODV routing protocol.