Lifetime Maximization for 5G Mobile Networks Using Secured and Finest Optimal Routing Protocol

Abstract

The lifetime enhancement of any 5G Wireless Networks is essential to increase the efficacy and also the network performance. Hence, to enhance the lifetime, identifying a reliable routing protocol is the major challenge in any wireless network. In this proposed research, combined optimization technique named Secured and Finest Optimal Routing (SFOR) protocol is proposed to increase the network lifetime. Therefore, the given scenario is configured as Software Defined Network (SDN) which will configure the network dynamically for efficient management. Three scenario’s of the routing problem is arrived once, the routing of the mobile node is unidentified to derive a SFOR for maximizing the network lifetime. The arrived three scenario’s are mathematically modeled as Linear Programming (LP) problem and the problems are resolved utilizing the source node routing strategies. In this research work, the planned SFOR procedure is deployed in addition efficacy is associated through the reported methods. It is detected that the projected SFOR procedure increases the era of the network is 16% and 50% as compared with Virtual Ad hoc Routing Protocol and Path Collection constructed on Trust Protocol respectively.