Mitigate the Energy Consumption In Dynamic Wireless Sensor Networks Using Mathematical Model

K Rakesh

Abstract


Wireless sensor networks (WSNs) have been deployed for a wide type of packages, including navy sensing and monitoring, patient fame tracking, visitors float monitoring, where sensory gadgets regularly pass between exclusive places. Securing facts and communications requires appropriate encryption key protocols. In this paper, we use a certificates much less-effective key control (CL-EKM) protocol for at ease communication in dynamic WSNs characterised by means of node mobility. The CL-EKM helps efficient key updates when a node leaves or joins a cluster and guarantees forward and backward key secrecy. The protocol additionally supports efficient key revocation for compromised nodes and minimizes the effect of a node

compromise on the safety of other conversation hyperlinks. A safety evaluation of our scheme shows that our protocol is effective in defending in opposition to various attacks. In this paper, we layout mathematical model for mitigating the power intake. We put in force CL-EKM with mathematical technique using NS-2 simulator to assess its time, power, verbal exchange, and reminiscence overall performance.


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