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Journal of Network and Systems Management

Erschienen in:

19.04.2016

A Genetic Algorithm-Based, Dynamic Clustering Method Towards Improved WSN Longevity

verfasst von: Xiaohui Yuan, Mohamed Elhoseny, Hamdy K. El-Minir, Alaa M. Riad

Erschienen in: Journal of Network and Systems Management | Ausgabe 1/2017

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Abstract

The dynamic nature of wireless sensor networks (WSNs) and numerous possible cluster configurations make searching for an optimal network structure on-the-fly an open challenge. To address this problem, we propose a genetic algorithm-based, self-organizing network clustering (GASONeC) method that provides a framework to dynamically optimize wireless sensor node clusters. In GASONeC, the residual energy, the expected energy expenditure, the distance to the base station, and the number of nodes in the vicinity are employed in search for an optimal, dynamic network structure. Balancing these factors is the key of organizing nodes into appropriate clusters and designating a surrogate node as cluster head. Compared to the state-of-the-art methods, GASONeC greatly extends the network life and the improvement up to 43.44 %. The node density greatly affects the network longevity. Due to the increased distance between nodes, the network life is usually shortened. In addition, when the base station is placed far from the sensor field, it is preferred that more clusters are formed to conserve energy. The overall average time of GASONeC is 0.58 s with a standard deviation of 0.05.

Vorheriger Artikel A Rate Allocation Framework for Multi-Class Services in Software-Defined Networks

Nächster Artikel A Novel Long Term Telecommunication Network Planning Framework

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We use the number of rounds between the start of the network until the first node becomes unavailable as the network life.

Li, B., Li, H., Wang, W., Yin, Q., Liu, H.: Performance analysis and optimization for energy-efficient cooperative transmission in random wireless sensor network. IEEE Trans. Wirel. Commun. 12(9), 4647–4657 (2013)CrossRef

Xie, D., Zhou, Q., You, X., Li, B., Yuan, X.: A novel energy-efficient cluster formation strategy: from the perspective of cluster members. IEEE Commun. Lett. 17(11), 2044–2047 (2013)CrossRef

Liao, Y., Qi, H., Li, W.: Load-balanced clustering algorithm with distributed self-organization for wireless sensor networks. IEEE Sens. J. 13(5), 1498–1506 (2013)CrossRef

Elhoseny, M., Yuan, X., Yu, Z., Mao, C., El-Minir, H.K., Riad, A.M.: Balancing energy consumption in heterogeneous wireless sensor networks using genetic algorithm. IEEE Commun. Lett. 19(12), 3194–3197 (2015)CrossRef

Tripathi, K., Singh, N., Verma, K.: Two-tiered wireless sensor networks—base station optimal positioning case study. IET Wirel. Sens. Syst. 2(4), 351–360 (2012)CrossRef

Wang, L., Wang, C., Liu, C.: Optimal number of clusters in dense wireless sensor networks: a cross-layer approach. IEEE Trans. Veh. Technol. 58(2), 966–976 (2009)CrossRef

Heinzelman, W., Chandrakasan, A., Balakrishnan. H.: Energy-efficient communication protocol for wireless microsensor networks. In: The Hawaii International Conference on System Sciences, Maui, Hawaii (2000)

Heinzelman, W., Chandrakasan, A., Balakrishnan, H.: An application-specific protocol architecture for wireless microsensor networks. IEEE Trans. Wirel. Commun. 1(4), 660–670 (2002)CrossRef

Chengfa, L., Mao, Y., Guihai, C., Lie, W.: An energy-efficient unequal clustering mechanism for wireless sensor networks. In: IEEE International Conference on Mobile Adhoc and Sensor Systems, Washington, DC (2005)

10.

Shirmohammadi, M., Faez, K., Chhardoli, M.: LELE: leader election with load balancing energy. In: International Conference on Communications and Mobile Computing, pp. 106–110 (2009)

11.

Raj, E.: An efficient cluster head selection algorithm for wireless sensor networks EDRLEACH. J. Comput. Eng. 2(2), 39–44 (2012)

12.

Lindsey, S., Raghavendra, C.: Pegasis power-efficient gathering in sensor information systems. IEEE Aerosp. Conf. Proc. 3, 1125–1130 (2002)

13.

Nadeem, Q., Rasheed, M., Javaid1, N., Khan, Z., Maqsood, Y., Din, A.: M-GEAR gateway-based energy-aware multi-hop routing protocol for WSNs. In: Eighth International Conference on Broadband and Wireless Computing and Communication and Applications, pp. 164–169 (2013)

14.

Nayak, P., Devulapalli, A.: A fuzzy logic-based clustering algorithm for wsn to extend the network lifetime. IEEE Sens. J. 16(1), 137–144 (2016)CrossRef

15.

Diallo, C., Marot, M., Becker, M.: Single-node cluster reduction in WSN and energy-efficiency during cluster formation. In: 9th IFIP Annual Mediterranean Ad Hoc Networking Conference, France (2010)

16.

Smaragdakis, G., Matta, I., Bestavros. A.: SEP: a stable election protocol for clustered heterogeneous wireless sensor network. In: Second International Workshop on Sensor and Actor Network Protocols and Applications (2004)

17.

Elbhiri, B., Rachid, S., Elfkihi, S.: Developed distributed energy-effecient clustering (DDEEC) for heterogeneous wireless sensor. In: Communications and Mobile Network, pp. 1–4, Rabat (2010)

18.

Kashaf, A., Javaid, N., Khan, Z., Khan, I.: TSEP: threshold-sensitive stable election protocol for WSNs. In: Conference on Frontiers of Information Technology, pp. 164–168 (2012)

19.

Mahmood, D., Javaid, N., Mahmood, S., Qureshi, S., Memon, A., Zaman, T.: MODLEACH: a variant of LEACH for WSNs. In: Eighth International Conference on Broadband and Wireless Computing and Communication and Applications, pp. 158–163 (2013)

20.

Arunraja, M., Malathi, V., Sakthivel, E.: Distributed energy efficient clustering algorithm for wireless sensor networks. J. Microelectron. Electron. Compon. Mater. 45(3), 180–187 (2015)

21.

Chatterjee, M., Das, S., Turgut, D.: WCA: a weighted clustering algorithm for mobile ad hoc networks. Clust. Comput. 5, 193–204 (2002)CrossRef

22.

Younis, O., Fahmy, S.: HEED: a hybrid, energy-efficient, distributed clustering approach for ad hoc sensor networks. IEEE Trans. Mob. Comput. 3(4), 366–379 (2004)CrossRef

23.

Torghabeh, N., Akbarzadeh, M., Yaghmaee, M.: Head selection using a two-level fuzzy logic in wireless sensor networks. In: 2nd International Conference on Computer Engineering and Technology, pp. 357–361 (2010)

24.

Kannammal, K., Purusothaman, T., Manjusha, M.: An efficient cluster based routing in wireless sensor networks. J. Theor. Appl. Inf. Technol. 59(3), 683–689 (2014)

25.

Bhaskar, N., Subhabrata, B., Soumen, P.: Genetic algorithm based optimization of clustering in ad-hoc networks. Int. J. Comput. Sci. Inf. Secur. 7(1), 165–169 (2010)

26.

Bayrakl, S., Erdogan, S.: Genetic algorithm based energy efficient clusters in wireless sensor networks. Procedia Comput. Sci. 10, 247–254 (2012)CrossRef

27.

Attea, B.A., Khalil, E.A.: A new evolutionary based routing protocol for clustered heterogeneous wireless sensor networks. Appl. Soft Comput. 12(7), 1950–1957 (2012)CrossRef

28.

Wu, Y., Liu, W.: Routing protocol based on genetic algorithm for energy harvesting-wireless sensor networks. IET Wirel. Sens. Syst. 3(2), 112–118 (2013)CrossRef

29.

Nandi, B., Barman, S., Paul, S.: Genetic algorithm based optimization of clustering in ad-hoc networks. Int. J. Comput. Sci. Inf. Secur. 7(1), 165–169 (2010)

30.

Seo, H., Oh, S., Lee, C.: Evolutionary genetic algorithm for efficient clustering of wireless sensor networks. In: Sixth IEEE Consumer Communications and Networking Conference, p. 2009 (2009)

31.

Ming, Y., Leung, K., Malvankar, A.: A dynamic clustering and energy efficient routing technique for sensor networks. IEEE Trans. Wirel. Commun. 6(8), 3069–3079 (2007)CrossRef

32.

Goldberg, D.E.: Genetic Algorithms in Search, Optimization, and Machine Learning. Addison-Wesley Professional, Reading (1989)MATH

Titel: A Genetic Algorithm-Based, Dynamic Clustering Method Towards Improved WSN Longevity
verfasst von: Xiaohui Yuan
Mohamed Elhoseny
Hamdy K. El-Minir
Alaa M. Riad
Publikationsdatum: 19.04.2016
Verlag: Springer US
Erschienen in: Journal of Network and Systems Management / Ausgabe 1/2017
Print ISSN: 1064-7570
Elektronische ISSN: 1573-7705
DOI: https://doi.org/10.1007/s10922-016-9379-7

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