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ABSTRACT
The problems of hot spot and energy consumption of nodes in wireless sensor networks (WSNs) have been tackled by the adoption of hybrid energy efficient distributed (HEED) and unequal clustering algorithm to prolong the network lifetime (UCAPN) protocols. These have involved the implementation of unequally sized clusters that are based on the distance of cluster head (CH) from the base station (BS). The BS partitions the network area into several radially divided zones depending on the distance from centre of the field and CHs are independently selected in each zone. Clustering, on the other hand, controls how data are transmitted and allows for aggregation in the clusters. However, whereas these topologies have been able to improve network life time, the problem of network void still persists. To address this, a radially optimized zone-divided energy-aware WSN protocol using bat algorithm is proposed. This protocol considers not only the distance from the BS, but also the angle at which the WSN develops. It gives a unique and equal opportunity for each sensor network to have ambience area for communicating and sensing necessary for its routing operations. Besides, it divides the sensing area into radial zones and employs the unequal clustering method in these zones to resolve the hot-spot problem. Based on the merits of zone-divided networks, CHs with great residual energy present in the high-energy regions are selected as the relay node in the inter-cluster multi-hop routing stage. Simulation results show that the proposed technique outperforms both HEED and UCAPN protocols. Bat algorithm is capable of predicting most critical nodes and generates a scalable and feasible energy-efficient routing technique for radially optimized zone-divided energy-aware WSN. By exploiting the angle at which the WSN develops, this protocol avails equal opportunity for each sensor network to have enough fields for communicating and sensing necessary for its routing operations. Using bat algorithm not only gives a superior packet delivery ratio, hence reducing voids, but also saves on energy consumption at the nodes. Sensor nodes are grouped into clusters to improve network performance.
ACKNOWLEDGEMENTS
I would like to thanks Mr. Manvinder Sharma, my guide for helping me to build the core theme of this research paper and Dr. Manish Pandey, principal for giving me the ideas for writing up of all this work in the paper, above all my parents and friends without whom I would not have been able to complete the work. Also, I would like to confirm that I have not taken help from any organization for their financial support of my research work.
Additional information
Notes on contributors
Sanam Preet Kaur
Sanam Preet Kaur was born in Jammu, India, in 1990. She received the B.Tech degree in Electronics and Communication Engineering from Chandigarh Engineering College, Landran (Mohali). She is currently pursuing MTech degree in Electronics and Communication Engineering from CGC College of Engineering, Landran (Mohali).
E-mail: [email protected]
Manvinder Sharma
Manvinder Sharma obtained his Bachelor's degree in Electronics and Communication Engineering from Punjab Technical University. Then, he obtained his master's degree in VLSI design from Amity University, Noida. He is an assistant professor at the Faculty of Electronics and Communication Engineering, CGC College of Engineering, Landran (Mohali). His specializations include wireless communication, VLSI design, 3D-ICs, flip chip and interconnects and reliability of interconnects. He did his research work from Nanyang Technological University, Singapore, in 3D-ICs. He is a member of IET.
E-mail: [email protected]
