Consequence of Space Efficient Secret Sharing for Secure Multi-Path Data Delivery in WSN

Abstract

Objective: Byzantine Attacks are more challenging to protect against and it may stop Transmitting and cheating with malicious data in Wireless Sensor Networks (WSN). The Primary objective is to give a solution to enhance the security in terms of Byzantine attacks. Methods/Analysis: In this paper, Space Efficient Secret Sharing (SESS) scheme is proposed for secured data delivery in the WSN. The SESS scheme primarily uses recursive polynomial interpolation and its secret size is optimized as k zz -1 . Besides, this paper incorporates the Prufer Sequence and 3-node disjoint shortest Multipath Routing for optimizing the number of paths between the source and the destination. Findings: The implementation is mainly concern towards the effectiveness of SESS scheme over RS-coding scheme. Since, RS-coding scheme has more computation than the proposed. The key finding reveals that the proposed SESS scheme is outperformed in many instances. Conclusion: The simulation results depict the various performance metrics of WSN in terms of the quality of service. Among the list of metrics, the proposed SESS scheme is outperformed in optimizing the control packet overhead. It improves the average network lifetime, since it is consuming less energy.