Litcius/Paper detail

E2DA: Energy Efficient Data Aggregation and End-to-End Security in 3D Reconfigurable WSN

Karthick Ramasamy, Mohammad Hossein Anisi, Anish Jindal

2021IEEE Transactions on Green Communications and Networking22 citationsDOIOpen Access PDF

Abstract

This paper deals with energy consumption and security limitations in the reconfigurable WSN’s in order to improve the network lifetime with end-to-end data privacy. The network consists set of nodes placed in distributed environment such that each node performs a reconfiguration task to support users requirements. We proposed novel solutions that improved network lifetime through efficient reconfigurable routing and less network traffic. We proposed an in-network task to eliminate duplicate packets at the node level using hashing distance computation (HDC). Further, we introduced power-efficient reconfigurable cell-by-cell golden sector-based emperor penguin colony (CbC GSEPC) for trust-based routing. In terms of data confidentiality in the energy-constrained environment, a lightweight key expandable cryptography method was proposed for end-to-end confidentiality. Additionally, a reading-based dual validation (RbDV) audits the information at sink level for intrusion detection and isolates suspicion nodes. The proposed and existing works simulated with NS-3.26 and the results show that the proposed work’s average energy consumption is 5.82% lower than the existing 2D-WSN while offering end-to-end confidentiality and node reconfiguration opportunity.

Topics & Concepts

Computer scienceComputer networkControl reconfigurationEnergy consumptionWireless sensor networkNetwork packetEmbedded systemEngineeringElectrical engineeringPhysical Unclonable Functions (PUFs) and Hardware SecurityEnergy Harvesting in Wireless NetworksSecurity in Wireless Sensor Networks