Analysis of a new model of low energy adaptive clustering hierarchy protocol in the wireless sensor network

Authors

  • Volodymyr Mosorov Lodz University of Technology Stefanowskiego str. 18\22, Lodz, Poland, 90-924, Poland
  • Sebastian Biedron Lodz University of Technology 18\22 Stefanowskiego str., Lodz, Poland, 90-924, Poland
  • Taras Panskyi Lodz University of Technology 18\22 Stefanowskiego str., Lodz, Poland, 90-924, Poland

DOI:

https://doi.org/10.15587/1729-4061.2015.51202

Keywords:

Wireless sensor network, LEACH, self-organization protocols, node, cluster tree

Abstract

Wireless sensor networks constitute a special group of distributed measurement systems that are increasingly used to observe environmental factors for civilian or military purposes. These observations are not conducted by a single node, but rather by multiple nodes which together form ad-hoc cooperation networks. The event to be measured can be observed with the benefit of the very working principle of sensor networks, where information from each node is transmitted to the observer in the form of an induced periodic query or is induced by the event. With the technological advancements it is now possible to manufacture nodes whose size is in the order of centimeters. This enables the use of sensor nodes on an unprecedented scale and opens new opportunities for so-called ubiquitous computing. Initially, sensor networks were wired solutions. The development of wireless and data processing technologies has helped sensor nodes to take over a larger area of research. The authors of this article wish to raise the issue of sensor networks development and show the influence of various factors on the self-positioning of sensor networks.

Author Biographies

Volodymyr Mosorov, Lodz University of Technology Stefanowskiego str. 18\22, Lodz, Poland, 90-924

Doctor of Technical Sciences

Institute of Applied Computer Science

Sebastian Biedron, Lodz University of Technology 18\22 Stefanowskiego str., Lodz, Poland, 90-924

Postgraduate student

Institute of Applied Computer Science

Taras Panskyi, Lodz University of Technology 18\22 Stefanowskiego str., Lodz, Poland, 90-924

Postgraduate student

Institute of Applied Computer Science

References

  1. Bogumił, P. Bezprzewodowe sieci sensorowe w przemyśle – problemy funkcjonowania i stosowalności. Available at: http://www.wsn.agh.edu.pl/?q=pl/node/164
  2. Fu, C., Jiang, Z., Wei, W., Wei, A. (2013). An Energy Balanced Algorithm of LEACH Protocol in WSN. International Journal of Computer Science Issues, 10/1 (1), 354–359.
  3. Roseline, R. A., Sumathi, Dr. P. (2011). Energy Efficient Routing Protocol and Algorithms for Wireless Sensor Networks – A Survey. Global Journal of Computer Science and Technology, 11
  4. Jin-wei, W., Hua-zhi, S., De-bing, S. (2008). Research on the Number of Optimal Cluster Heads of Wireless Sensor Networks Based on Energy Consumption. Journal of Computer Research and Development, 03
  5. Dhawan, H., Waraich, S. (2014). A Comparative Study on LEACH Routing Protocol and Its Variants in Wireless Sensor Networks: A Survey. IJCA, 95 (8), 21–27. doi: 10.5120/16614-6454
  6. Yadav, L., Sunitha, Ch. (2014). Low Energy Adaptive Clustering Hierarchy in Wireless Sensor Network (LEACH). International Journal of Computer Science and Information Technologies, 5 (3), 4661–4664
  7. Aslam, M., Javaid, N., Rahim, A., Nazir, U., Bibi, A., Khan, Z. A. (2012). Survey of Extended LEACH-Based Clustering Routing Protocols for Wireless Sensor Networks. EEE 14th International Conference on High Performance Computing and Communication & 2012 IEEE 9th International Conference on Embedded Software and Systems, 1232–1238. doi: 10.1109/hpcc.2012.181
  8. Xiao-yun, W., Li-zhen Yang, Ke-fei, C. (2005). SLEACH: Secure low-energy adaptive clustering hierarchy protocol for wireless sensor networks. Wuhan University Journal of Natural Sciences, 10 (1), 127–131. doi: 10.1007/bf02828633
  9. Neto, J. H. B., Rego, A. da S., Cardoso, A. R., Celestino, J. Jr. (2014). MH-LEACH: A Distributed Algorithm for Multi-Hop Communication in Wireless Sensor Networks. ICN 2014: The Thirteenth International Conference on Networks, 55–61.
  10. Iqbal, A., Akbar, M., Javaid, N., Bouk, S. H., Ilahi, M., Khan, R. D. (2013). Advanced LEACH: A Static Clustering-based Heteroneous Routing Protocolfor WSNs. J. Basic. Appl. Sci. Res., 3 (5), 864–872.
  11. Faludi, R. (2010). Building Wireless Sensor Networks. O'Reilly Media, 322
  12. Jankowski, M. (2009). Sieci Sensorowe – wybrane zagadnienia. Praca magisterska.
  13. Lewis, F. L. (2004). Wireless Sensor Networks. Smart Environments: Technologies, Protocols, and Applications. John Wiley & Sons, Inc. doi: 10.1002/047168659X.ch2
  14. Jeznach, J., Niepsuj, P. (2007). Analiza protokołów rutingu w sieciach sensorowych. Praca magisterska.
  15. Deb, B., Bhatnagar, S., Nath, B. (2002). A Topology Discovery Algorithm for Sensor Networks with Applications to Network Management.
  16. Zdunek, R. (2010). Bezprzewodowa sieć sensorowa. Praca magisterska, 51.
  17. Zhong, J., Berlok, A. (2009). Variable Threats Based Self-Organization Scheme for Wireless Sensor Networks. Proceedings of the 2009 Third International Conference on Sensor Technologies and Applications, 327–332. doi: 10.1109/sensorcomm.2009.57
  18. Mosorov, V., Biedron, S., Panskyi, T. (2015). The application of sensor networks within mobile cell networks. Eastern-European Journal of Enterprise Technologies, 4/9(76), 48–52. doi: 10.15587/1729-4061.2015.47697

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Published

2015-10-20

How to Cite

Mosorov, V., Biedron, S., & Panskyi, T. (2015). Analysis of a new model of low energy adaptive clustering hierarchy protocol in the wireless sensor network. Eastern-European Journal of Enterprise Technologies, 5(9(77), 4–8. https://doi.org/10.15587/1729-4061.2015.51202

Issue

Vol. 5 No. 9(77) (2015): Information and controlling system

Section

Information and controlling system

License

Copyright (c) 2015 Volodymyr Mosorov, Sebastian Biedron, Taras Panskyi

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