SCDAP – Secured Cluster based Data Aggregation Protocol for Energy Efficient Communication in Wireless Sensor Networks

Author:

Gunasekaran Lavanya1,Velammal B L1,K Kulothungan1

Affiliation:

1. Anna University

Abstract

Abstract A network of real time devices that can sense and transmit the information from the deployed environment by using multi hop communication is called as Wireless Sensor Network (WSNs). Despite the rapid advancement of WSN, where an increasing number of physical devices so called as sensors nodes are connected with each other, providing theimproved security withoptimized energy consumption during data transmission, communication and computation remains huge challenge. In wireless sensor networks, numerous sensor nodes are deployed in the physical environment to sense and collect the required information from the given environment. The sensed information are needed to be transmitted from the nodes to the control station in an energy efficient manner. Data aggregation is one kind of techniques which willoptimize the energy usage in wireless sensor networks during the data transmission. In data aggregation, the unnecessary data is removedwhich will significantly reduce energy of the nodes during data transmission. However, collected data during the data aggregation should be completely protected and there are various threats that can be launched by the intruders to carry out unauthorised data access and can cause threat to the integrity of the network. Therefore, ensuring data security during the data aggregation process is very important and essential for the security of the network. In this paper, a Secure Cluster based Data Aggregation Protocol (SCDAP) have been proposed to provide better security through secure authentication and verification process, and to reduce overall energy consumption of the network by implementing secure clustering process to eliminate the redundant data in the network. Moreover, the proposed system is more efficient in generating public and private keys for effective and secure data transmission and verification process. The proposed system is experimentally tested in NS3 tool and proves that the proposed system reduces high energy consumption, computational and communicational cost, end-to-end delay and improves the packet delivery ratio. Moreover, the proposed system provides better security in the network when compared to other existing systems during the data aggregation.

Publisher

Research Square Platform LLC

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