G Spica Sujeetha

A Multi-objective Fuzzy Logic based Multi-path Routing Algorithm for WSNs

Full Text (PDF, 582KB), PP.30-40

Views: 0 Downloads: 0

Author(s)

G Spica Sujeetha ^1,*

1. Narsimha Reddy Engineering College, Hyderabad, Telangana, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijwmt.2022.01.04

Received: 9 Jul. 2021 / Revised: 20 Aug. 2021 / Accepted: 14 Sep. 2021 / Published: 8 Feb. 2022

Index Terms

Multi-hop, multi-objective, WSN, fuzzy logic, cluster head, EN-LEACH

Abstract

Wireless Sensor Networks (WSNs) have included one of the major challenges as energy efficiency. The optimal routing is the better solution for tackling the energy-efficiency problem as the energy is consumed with massive amount by the communication of a network. The clustering technique is the reliable data gathering algorithm for achieving energy-efficiency. The data transmit to the cluster head (CH) by each node that belonging to the cluster for clustered networks. The data transmission towards the BS or SINK is occurred once all data is received by CH from all member nodes. In multi-hop environments, the data transmission happens via other cluster-heads. It leads to the earlier death of CHs that are nearer to the SINK because of the heavy inter-cluster relay, i.e. called as hot-spot problem. The existing methods of unequal clustering approaches have been used to resolve this issue. The algorithms generate the clusters with smaller sizes while approaching towards the sink for reducing the intra-cluster relay. These algorithms didn’t consider the hotspot problem very effectively. Therefore, in this work, we introduce a multi-objective fuzzy logic based multi-path routing solution (MOFL-MPR) to address the above said problem. The popular clustering algorithms have been evaluated the performance results and the MOFL-MPR is outperformed the existing algorithms based on the obtained experimental results in terms of stable CH selection, energy efficiency and better data delivery.

Cite This Paper

G Spica Sujeetha, " A Multi-objective Fuzzy Logic based Multi-path Routing Algorithm for WSNs", International Journal of Wireless and Microwave Technologies(IJWMT), Vol.12, No.1, pp. 30-40, 2022. DOI: 10.5815/ijwmt.2022.01.04

Reference

[1] Khandare, A. and Alvi, A., 2018. Efficient clustering algorithm with enhanced cohesive quality clusters. International Journal of Intelligent Systems and Applications, 10(7), p.48.

[2] Shahraki, A., Taherkordi, A., Haugen, Ø. and Eliassen, F., 2020. A survey and future directions on clustering: From WSNs to IoT and modern networking paradigms. IEEE Transactions on Network and Service Management, 18(2), pp.2242-2274.

[3] Rostami, A.S., Badkoobe, M., Mohanna, F., Hosseinabadi, A.A.R. and Sangaiah, A.K., 2018. Survey on clustering in heterogeneous and homogeneous wireless sensor networks. The Journal of Supercomputing, 74(1), pp.277-323.

[4] Shokair, M. and Saad, W., 2017. Balanced and energy-efficient multi-hop techniques for routing in wireless sensor networks. IET Networks, 7(1), pp.33-43.

[5] Buvanesvari, R. and Begum, A.R., 2020. Energy-Efficient Unequal Clustering Algorithm Using Hybridization of Social Spider with Krill Herd in IoT-Assisted Wireless Sensor Networks. In Artificial Intelligence Techniques in IoT Sensor Networks (pp. 113-133). Chapman and Hall/CRC.

[6] Najjar-Ghabel, S., Farzinvash, L. and Razavi, S.N., 2020. Mobile sink-based data gathering in wireless sensor networks with obstacles using artificial intelligence algorithms. Ad Hoc Networks, 106, p.102243.

[7] Soro S, Heinzelman W (July 2009) Cluster head election techniques for coverage preservation in wireless sensor networks. Ad Hoc Netw 7(5):955–972.

[8] O. Younis, S. Fahmy, Distributed clustering in ad-hoc sensor networks: a hybrid, energy-efficient approach, IEEE Transactions on Mobile Computing 3 (4) (2004).

[9] Abdulqader M, Walid A, Khaled A, Abdulrahman A (2016) A robust harmony search algorithm based Markov model for node deployment in hybrid wireless sensor network. Int J Geomate 11(27):2747–2754.

[10] Dhawan H, Waraich S (2014) A comparative study on LEACH routing protocol and its variants in wireless sensor networks: a survey. Int J Comput Appl 95(8):975–8887.

[11] Barai LY, Gaikwad MA (2014) Performance evaluation of LEACH protocol for wireless sensor network. International Journal of Innovative Research in Advanced Engineering (IJIRAE) 1(6).

[12] Elsmany, E.F.A., Omar, M.A., Wan, T.C. and Altahir, A.A., 2019. EESRA: Energy efficient scalable routing algorithm for wireless sensor networks. IEEE Access, 7, pp.96974-96983.

[13] Abu Salem, A.O., Shudifat, N. Enhanced LEACH protocol for increasing a lifetime of WSNs. Pers Ubiquit Comput 23, 901–907 (2019). https://doi.org/10.1007/s00779-019-01205-4.

[14] Khan, K. and Goodridge, W., 2015. Fault Tolerant Multi-Criteria Multi-Path Routing in Wireless Sensor Networks. International Journal of Intelligent Systems and Applications, 7(6), p.55.

[15] Rezaeipanah, A., Nazari, H. and Abdollahi, M., 2020. Reducing energy consumption in wireless sensor networks using a routing protocol based on multi-level clustering and genetic algorithm. International Journal of Wireless and Microwave Technologies (IJWMT), 3(1), pp.1-16.

[16] Rajasekaran, K. and Balasubramanian, K., 2016. Energy conscious based multipath routing algorithm in WSN. International Journal of Computer Network and Information Security, 8(1), p.27.

[17] Saxena, S., Mishra, S. and Singh, M., 2013. Clustering based on node density in heterogeneous under-water sensor network. Int. J. Inf. Technol. Comput. Sci, 5(7), p.49.

International Journal of Wireless and Microwave Technologies (IJWMT)