Abstract
Each round of clustering generally uses a single method to perform the task of clustering. For the enhancement of network capability to better manage the network resources, we extend a new multi-clustering algorithm (EEFMCP) in this paper. We apply a fuzzy inference system to define the various rules in each execution round. Three types of input/ output combinations define the complete working of the clustering protocol. For each node, the different execution round adopts a specific input/output combination to calculate the chance value for cluster head (CH). Multiple input/ output combination of fuzzy variables has better control over the network dynamism. The network feature drastically changes due to the depletion of the energy of sensor nodes. A new closeness index is proposed and utilized for better CH selection. We compare EEFMCP with Low Energy Adaptive Clustering Hierarchy (LEACH), Cluster Head Election mechanism using Fuzzy logic (CHEF), Fuzzy Energy-Aware Unequal Clustering Algorithm (EAUCF), and Fuzzy Logic Based Energy Efficient Clustering Hierarchy (FLECH), the distinct algorithms useful for clustering in WSN. The substantial simulation work shows that the EEFMCP always performs better for different simulation scenarios.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Abdul-Qawy ASH, Srinivasulu T (2019) SEES: a scalable and energy-efficient scheme for green IoT-based heterogeneous wireless nodes. J Ambient Intell Humaniz Comput 10:1571–1596
Alaba FA, Othman M, Hashem IAT, Alotaibi F (2017) Internet of things security: a survey. J Netw Comput Appl 88:10–28
Avci B, Trajcevski G, Tamassia R, Scheuermann P, Zhou F (2017) Efficient detection of motion-trend predicates in wireless sensor networks. Comput Commun 101:26–43
Bagci H, Yazici A (2013) An energy aware fuzzy approach to unequal clustering in wireless sensor networks. Appl Soft Comput 13(4):1741–1749
Balakrishnan B, Balachandran S (2017) FLECH: fuzzy logic based energy efficient clustering hierarchy for non-uniform wireless sensor networks. Wirel Comm Mobile Comput. https://doi.org/10.1155/2017/1214720
Bokhari TYK, M U, (2016) SEPFL routing protocol based on fuzzy logic control to extend the lifetime and throughput of the wireless sensor network. Wireless Netw 22:647–653
Bozorgi SM, Bidgoli AM (2019) HEEC: a hybrid unequal energy efficient clustering for wireless sensor networks. Wireless Netw 25:4751–4772
Cui JH, Kong J, Gerla M, Zhou S (2006) The challenges of building mobile underwater wireless networks for aquatic applications. IEEE Netw 20(3):12–18
Fanian F, Rafsanjani MK (2018) Memetic fuzzy clustering protocol for wireless sensor networks: shuffled frog leaping algorithm. Appl Soft Comput 71:568–590
Fanian F, Rafsanjani MK (2020) A new fuzzy multi-hop clustering protocol with automatic rule tuning for wireless sensor networks. Appl Soft Comput 89:106–115
Gajjar SH, Pradhan SN, Dasgupta KS (2011) Wireless sensor network: application led research perspective. In Recent advances in intelligent computational systems (RAICS). (pp. 025–030). IEEE
Gajjar S, Choksi N, Sarkar M, Dasgupta K (2014) Comparative analysis of wireless sensor network motes. In Signal processing and integrated networks (SPIN) (pp. 426–431). IEEE
Haseeb K et al (2017) Adaptive energy aware cluster-based routing protocol for wireless sensor networks. Wireless Netw 23(6):1953–1966
Heinzelman WB, Chandrakasan AP, Balakrishnan H (2000) Energy-efficient communication protocol for wireless microsensor networks. In Proceedings of the 33rd Annual Hawaii International Conference on System Sciences, 2000 (pp. 1–10)
Heinzelman WB, Chandrakasan AP, Balakrishnan H (2002) An application-specific protocol architecture for wireless microsensor networks. IEEE Trans Wireless Commun 1:660–670
Jafarizadeh V, Keshavarzi A, Derikvand T (2017) Efficient cluster head selection using Naive Bayes classifier for wireless sensor networks. Wireless Netw 23(3):779–785
Jain A, Goel AK (2020) Energy efficient fuzzy routing protocol for wireless sensor networks. Wireless Pers Commun 110:1459–1474
Jiang Y, Zhang L, Wang L (2013) Wireless sensor networks and the internet of things. Int J Distributed Sensor Netw
Jung K et al (2017) Improving adaptive cluster head selection of teen protocol using fuzzy logic for WMSN. Multimedia Tools Appl 2017:18175–18190
Khelladi L, Djenouri D, Rossi M, Badache N (2017) Efficient on-demand multi-node charging techniques for wireless sensor networks. Comput Commun 101:44–56
Kim J, Park S, Han Y, Chung T (2008) CHEF: cluster head election mechanism using fuzzy logic in wireless sensor networks. Adv Commun Technol 1:654–659
Li J, Silva B, Diyan M, Cao Z, Han K (2018a) A clustering based routing algorithm in IoT aware Wireless Mesh Networks. Sustain Cities Soc 40:657–666
Li S, Da-Xu L, Zhao S (2018b) 5G internet of things: a survey. J Ind Inf Integr 10:1–9
Lin D, Wang Q (2017) A game theory based energy efficient clustering routing protocol for WSNs. Wireless Netw 23(4):1101–1111
Mittal N, Singh U, Sohi BS (2017) A stable energy efficient clustering protocol for wireless sensor networks. Wireless Netw 23(6):1809–1821
Negnevitsky M (2001) Artificial intelligence: a guide to intelligent systems, Addison- Wesley, Reading
Ni Q, Pan Q, Du H, Cao C, Zhai Y (2017) A novel cluster head selection algorithm based on fuzzy clustering and particle swarm optimization. IEEE/ACM Trans Comput Biol Bioinf 14 (1)
Patil HK, Chen TM (2017) Wireless sensor network security: the internet of things, in: Computer and Information Security Handbook, Third Ed., Elsevier, pp. 317–337
Rashid B, Rehmani MH (2016) Applications of wireless sensor networks for urban areas: a survey. J Netw Comput Appl 60:192–219
Rault T, Bouabdallah A, Challal Y (2007) Energy efficiency in wireless sensor networks: a top-down survey. J Comput Netw 67:104–122
Shankar T, Shanmugavel S, Rajesh A (2016) Hybrid HSA and PSO algorithm for energy efficient cluster head selection in wireless sensor networks. Swarm Evol Comput 30:1–10
Sharma S, Sethi D, Bhattacharya P (2015) Artificial neural network based cluster head selection in wireless sensor network. Int J Comput Appl 119(4):34–41
Su S, Zhao S (2018) An optimal clustering mechanism based on Fuzzy-C means for wireless sensor networks. Sustain Comput Inf Syst 18:127–134
Vijayalakshmi K, Anandan PA (2018) A multi objective Tabu particle swarm optimization for effective cluster head selection in WSN. Clust Comput 22(6):12275–12282
Wang F, Liu J (2011) Networked wireless sensor data collection: issues, challenges, and approaches. IEEE Commun Surv Tutorials 13(4):673–687
Wang D, Lin L, Xu L (2011) A study of subdividing hexagon-clustered WSN for power saving: analysis and simulation. Ad Hoc Netw 9(7):1302–1311
Yager RR, Espada JP (2018) New advances in the internet of things. Springer
Yick J, Mukherjee B, Ghosal D (2008) Wireless sensor network survey. J Comput Netw 52(12):2292–2330
Younis O, Fahmy S (2004) HEED: a hybrid, energy-efficient, distributed clustering approach for ad hoc sensor networks. IEEE Trans Mob Comput 3(4):366–379
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Mishra, P.K., Verma, S.K. EEFMCP: energy efficient fuzzy logic-based multi-clustering protocol. J Ambient Intell Human Comput 14, 1991–2005 (2023). https://doi.org/10.1007/s12652-021-03412-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12652-021-03412-5