The effects of LT-SN on energy dissipation and lifetime in wireless sensor networks

© 2016 by the Author(s). This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution -Noncommercial 4.0 International License (CC-by the license) ( https://creativecommons.org/licenses/by-nc/4.0/ )

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Abstract

Wireless sensor networks (WSNs) still attract the attention of researchers, users and the private sector despite their low power and low range tendency for malfunction. This attraction towards WSNs results from their low cost structure and the solutions they offer for many prevalent problems. Many conditions, which remain unforeseen or unexpected during the design of the system, may arise after the initialization of the system. Similarly, many situations where security vulnerabilities take place may emerge in time in WSNs operating normally. In this study, we called nodes which enter sleeping mode without any further waking up and causing a sparser number of nodes in the network without any function in data transmission as Long-Term Sleep Nodes (LT-SN); and considered energy spaces caused by such nodes as a problem; and established two Linear Programming (LP) models based on the efficiency of the present nodes. We offered two different models which present the effect of sensor nodes, which were initially operating in wireless sensor network environment and did not wake up following sleep mode, on network lifetime. The results of the present study report that as the number of LT-SN increases, the lifetime of the network decreases

Keywords

Long-term sleep nodes

Energy dissipation

Linear programming

Modelling

Optimization

Conflict of interest

The authors declare they have no competing interests.

References

[1] Yildiz, H.U., Bicakci, K., Tavli, B., Gultekin, H., İncebacak. D., “Maximizing wireless sensor network lifetime by communication/computation energy optimization of non-repudiation security service: Node level versus network level strategies”, Ad Hoc Networks, Vol 37 No. 2, pp. 301-323 (2016).

[2] Weijie, L., Donglin, B., “Energy-efficient distributed lifetime optimizing scheme for wireless sensor networks”, Transactions of Tianjin University, Vol 22 No.1, pp.11-18 (2016).

[3] Kashi, S.S., Sharifi, M., “Connectivity weakness impacts on coordination in wireless sensor and actor networks”, Comm. Surveys & Tutorials, Vol 15 No.1, pp. 145-166 (2013).

[4] Jaquez, J., Valencia, D., Balakrishnan, M., Johnson E.E., Huang, H., “Implementation of TEAN-sleep for wireless sensor networks”, MILCOM'09 Proceedings of the 28th IEEE conference on Military communications, NJ, pp. 824-830 (2009).

[5] Abdelsalam, H.S., Olariu, S., “On prolonging network lifetime by adjusting sleep/awake cycles in wireless sensor networks”, In Networked Sensing Systems (INSS) Sixth International Conference, Pittsburgh, PA, pp. 1-6 (2009).

[6] Basha, E., Eiskamp, M., Johnson, J., Detweiler, C., “UAV Recharging opportunities and policies for sensor networks”,. Int. J. of Distributed Sensor Networks, Vol 11 No. 8, pp. 1-10 (2015).

[7] Bulut, E., Korpeoglu, İ., “DSSP: A dynamic sleep scheduling protocol for prolonging the lifetime of wireless sensor networks”. In Advanced Information Networking and Applications Workshops, Niagara Falls, Ont., pp. 725-730 (2007).

[8] Singh, H.K., Bharti, J., “A novel solution for sleep scheduler in wireless sensor networks”, International Journal of Advanced Smart Sensor Network Systems,Vol 2 No 1, pp.13:19 (2012).

[9] Jurdak, R., Ruzelli, A.G., O’Hare, M.P., “Radio sleep mode optimization in wireless sensor networks”, Mobile Computing, Vol 9, pp. 955-968 (2010).

[10] Wang, L., Yuan, Z., Shi, L., Qin. Z., “An energyefficient CKN algorithm for duty-cycled wireless sensor networks”, International Journal of Distributed Sensor Networks, Vol 2012, pp. 1-15 (2012).

[11] Chachra, S., Marefat, M., “Distributed algorithms for sleep scheduling in wireless sensor networks”, In Proc. Rob. and Aut., Orlando, FL; pp. 3101-3107 (2006).

[12] Saraswat, J., Bhattacharya, P.P., “Effect of duty cycle on energy consumption in wireless sensor networks”, International Journal of Computer Networks & Communications, Vol 5, pp. 125-140 (2013).

[13] Pagar, A.R., Mehetre, D.C., “A Survey on energy efficient sleep scheduling in wireless sensor network”,. International Journal of Advanced Research in Computer Science and Software Engineering, Vol 5, pp.557-562 (2015).

[14] Mahani, A., Ansari, M.S., Kavian, Y.S., “Yeliability or performance: A tradeoff in wireless sensor networks”, “In Proc. Communication Systems, Networks & Digital Signal Processing, 8th International Symposium, Poznan, pp. 5-6 (2012).

[15] Cardei, M., Jie, W., Mingming, L., Pervaiz, M.O., “Maximum network lifetime in wireless sensor networks with adjustable sensing ranges”, IEEE International Conference on Wireless and Mobile Computing, Networking and Communications, pp. 438-445 (2005).

[16] Yuksel, A., Uzun, E., Tavli, B., “The impact of elimination of the most critical node on Wireless Sensor Network lifetime”, In Sensors Applications Symposium (SAS), pp.1-5 (2015).

[17] Pala, Z., “Impact of sleep mode on energy dissipation in wireless sensor ad hoc networks”, Global Journal on Technology, Vol 3, pp. 955-963 (2013).

[18] Veeravalli, V., Fuemmeler, J., “Efficient tracking in a network of sleepy sensors” In Proc. Acoustics, Speech and Signal Processing, Vol 5, pp. V (2006).

[19] Cheng, Z., Perillo, M., Heinzelman, W., “General network lifetime and cost models for evaluating sensor network deployment strategies”, IEEE Transactions on Mobile Computing, Vol 7, pp. 484-497 (2008).

[20] Chang, J.H., Tassiulas, L., “Maximum lifetime routing in wireless sensor networks”, IEEE/ACM Transactions on Networking, Vol l, pp. 609-619 (2004)

[21] Ergen, S., Varaiya, P., “On multi-hop routing for energy efficiency”, IEEE Communications Letters, Vol 9, pp. 880-881 (2005).

[22] Rosenthal, R.E., GAMS-A user guide, Washington, DC, USA, GAMS Development Corporation (2015).

[23] Xue, Y., Cui, Y., Nahrstedt, K., “Maximizing Lifetime for Data Aggregation in Wireless Sensor Networks”, Mobile Networks and Applications, Vol 10, pp. 853-864 (2005).

[24] Dietrich, I., Dressler, F., “On the lifetime of wireless sensor networks”, ACM Transactions on Sensor Networks, Vol 5, 1-38 (2009)

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