An innovative fuzzy enhanced black widow spider optimization for energy-efficient cluster communication through the selection of the ideal cluster head

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Year : 2024 | Volume :02 | Issue : 02 | Page : –

Km Anjuman Bano,

Sushil Kumar Sharma,

Student, Department of Computer Science Engineering, Institute of Technology and Management, Aligarh, Uttar Pradesh, India
Assistant Professor, Department in Computer Science Engineering, Institute of Technology and Management, Aligarh, Uttar Pradesh, India

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This paper presents a novel approach to enhance energy efficiency in cluster-based wireless sensor networks (WSNs) by integrating fuzzy logic with the Black Widow Spider Optimization (BWSO) algorithm. The focus of the suggested fuzzy enhanced BWSO approach is on cluster head selection, which is essential for lowering energy consumption and enhancing network performance. The program uses fuzzy logic to assess a number of factors, including network density, node proximity, and energy levels, guaranteeing a more flexible and astute decision-making process. Simulation results show that in terms of energy efficiency, network longevity, and communication overhead, the suggested approach performs noticeably better than conventional clustering strategies. This creative strategy opens the door for more sustainable communication solutions in WSNs while also addressing the shortcomings of current techniques. Interest in studying Wireless Sensor Networks (WSN) has significantly increased as a result of the advancement of wireless communications. Numerous sensor nodes that are digitally attached to one another comprise a wireless sensor network (WSN). Sensor node components are responsible for observing their environment, processing the information they get, and interacting with different sensor nodes. These sensor nodes collaborate systematically to accomplish a common goal. This suggests using the FEBWS algorithm to improve WSN energy efficiency. The effectiveness of the proposed approach is evaluated using the NS-2 simulator. The suggested strategy performs better when the ideal parameter values are predicted using the hyper- parameter tuning technique. Performance is assessed using a number of parameters, including energy efficiency, packet loss, end-to-end latency, network longevity, and energy usage. For the sake of comparative study, the ACI-GSO algorithm, MWCSGA, RNN-LSTM approach, & PSO algorithm are the other approaches that are contrasted with the recommended FEBWS algorithm.

Keywords: Wireless Sensor Network, Clustering, Cluster Head, Energy Efficiency,

[This article belongs to International Journal of Wireless Security and Networks (ijwsn)]

How to cite this article:
Km Anjuman Bano, Sushil Kumar Sharma. An innovative fuzzy enhanced black widow spider optimization for energy-efficient cluster communication through the selection of the ideal cluster head. International Journal of Wireless Security and Networks. 2024; 02(02):-.

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Km Anjuman Bano, Sushil Kumar Sharma. An innovative fuzzy enhanced black widow spider optimization for energy-efficient cluster communication through the selection of the ideal cluster head. International Journal of Wireless Security and Networks. 2024; 02(02):-. Available from: https://journals.stmjournals.com/ijwsn/article=2024/view=0

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References
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Pathak S, Kumar A. An application and architecture of low energy adaptive clustering hierarchy protocol in wireless microsensor network. International Journal of Engineering, Science and Mathematics. 2018;7(3):314-26.
Ghosal A, Halder S, Das SK. Distributed on-demand clustering algorithm for lifetime optimization in wireless sensor networks. Journal of Parallel and Distributed Computing. 2020 Jul 1;141:129-42.
Tamene M, Rao KN. Fuzzy based distributed cluster formation and route construction in wireless sensor networks. International Journal of Computer Applications. 2016;140(5):21-7.
Preeti Yadav. Machine Learning in Wireless Sensor Networks: A Survey. International Journal of Research. 2018;VII(VI):777-789.
Ding Q, Zhu R, Liu H, Ma M. An overview of machine learning-based energy-efficient routing algorithms in wireless sensor networks. Electronics. 2021 Jun 25;10(13):1539.
Azad P, Sharma V. Cluster head selection in wireless sensor networks under fuzzy environment. International scholarly research notices. 2013;2013(1):909086.
Li X. A survey on data aggregation in wireless sensor networks. Project report for CMPT. 2006;765.
Akyildiz IF, Vuran MC. Wireless sensor networks. John Wiley & Sons; 2010 Jun 10.
Lindsey S, Raghavendra CS. PEGASIS: Power-efficient gathering in sensor information systems. InProceedings, IEEE aerospace conference 2002 Mar 9 (Vol. 3, pp. 3-3). IEEE.
Kumar V, Jain S, Tiwari S. Energy efficient clustering algorithms in wireless sensor networks: A survey. International Journal of Computer Science Issues (IJCSI). 2011 Sep 1;8(5):259.
Mukherjee R, Roy S, Das A. Survey on Data Collection protocols in Wireless Sensor Networks using mobile data collectors. In2015 2nd International Conference on Computing for Sustainable Global Development (INDIACom) 2015 Mar 11 (pp. 632-636). IEEE.
Toor AS, Jain AK. A survey of routing protocols in Wireless Sensor Networks: Hierarchical routing. In2016 International Conference on Recent Advances and Innovations in Engineering (ICRAIE) 2016 Dec 23 (pp. 1-6). IEEE.
Alashwal BY, Bala MS, Gupta A, Sharma S, Mishra P. Improved properties of keratin-based bioplastic film blended with microcrystalline cellulose: A comparative analysis. Journal of King Saud University-Science. 2020 Jan 1;32(1):853-7.
Sharmin S, Ahmedy I, Md Noor R. An energy-efficient data aggregation clustering algorithm for wireless sensor Networks using hybrid PSO. Energies. 2023 Mar 6;16(5):2487.
Tubaishat M, Madria S. Sensor networks: an overview. IEEE potentials. 2003 May 7;22(2):20-3.
Ramesh K, Somasundaram DK. A comparative study of clusterhead selection algorithms in wireless sensor networks. arXiv preprint arXiv:1205.1673. 2012 May 8.
Nakas C, Kandris D, Visvardis G. Energy efficient routing in wireless sensor networks: A comprehensive survey. Algorithms. 2020 Mar 24;13(3):72.
Barfunga SP, Rai P, Sarma HK. Energy efficient cluster based routing protocol for Wireless Sensor Networks. In2012 International Conference on Computer and Communication Engineering (ICCCE) 2012 Jul 3 (pp. 603-607). IEEE.
Pantazis NA, Nikolidakis SA, Vergados DD. Energy-efficient routing protocols in wireless sensor networks: A survey. IEEE Communications surveys & tutorials. 2012 Jul 25;15(2):551-91.
Sharma H, Haque A, Blaabjerg F. Machine learning in wireless sensor networks for smart cities: a survey. Electronics. 2021 Jan;10(9):1012.

Regular Issue Subscription Review Article

International Journal of Wireless Security and Networks

ISSN: 2584-0703

Volume	02
Issue	02
Received	15/10/2024
Accepted	19/10/2024
Published	08/11/2024

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