Abstract
Mobile ad-hoc network has limited battery power. Power consumption control is the main issue in mobile ad-hoc network. Node battery power is a precious resource that should be used in order to avoid the early termination of nodes. Energy management model and power consumption control flow chart is proposed to control power consumption by reducing data transmit time in mobile ad-hoc network. Simulation model has been used to analysis the energy consumption of a node. This has been achieved by estimating the time spent in transmission of data by node. The proposed model has been simulated using OMNET\(++\) simulator. Simulation results show significant energy savings after applying the proposed model and flow chart.
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References
Jun, J., & Sichitiu, M. L. (2003). The nominal capacity of wireless mesh networks. IEEE Wireless Communications, 10(5), 8–14.
Pimentel, H., Figueiredo, F. L., & Martins, J. A. (2007). Ad hoc network performance dynamics—A study. In Proceedings of the 2nd international symposium on wireless pervasive computing.
IEEE. (1998). Wireless LAN medium access control (MAC) and physical layer (PHY) Spec, IEEE 802.11 standard.
Tseng, Y. C., Hsu, C. S., & Hsieh, T. Y. (2003). Power-saving protocols for IEEE 802.11-based multi-hop ad hoc networks. Computer Networks, 43(3), 317–337.
Kim, S., Lee, C.-H., & Eun Do, Y. (2010). Super diffusive behavior of mobile nodes and its impact on routing protocol performance. IEEE Transactions on Mobile Computing, 9(2), 288–304.
Muqattash, A., & Krunz, M. (2003). Power controlled dual channel (PCDC) medium access protocol for wireless ad hoc networks. In Proceedings of the IEEE INFOCOM conference (pp. 470–480).
Mohapatra, P., & Krishnamurthy, S. (2005). Ad-hoc networks, technologies and protocols. Berlin: Springer.
Zawodniok, M., & Jagannathan, S. (2004). A distributed power control MAC protocol for wireless ad-hoc networks. In Proceedings of the IEEE, wireless communications and networking conference (vol. 3, pp. 1915–1920).
Chen, Y., YuPeiliang, G., & Zhang, Q. Z. (2006). Power aware cooperative relay selection strategies in wireless ad-hoc networks. In Proceedings of the IEEE international symposium on personal indoor and mobile radio communications (pp. 1–5).
Pimentel, H., Martins, J., & Fundacao, Campinas. (2007). Ad-hoc network performance dynamics—A study. In Proceedings of the international symposium on wireless, pervasive computing.
Lee, J. W., Mazumdar, R., & Shroff, N. (2007). Joint opportunistic power scheduling and end-to-end rate control for wireless ad-hoc networks. IEEE Transactions on Vehicular Technology, 56, 801–809.
Acharya, T., Chattopadhyay, S., Roy, R. (7–9 March 2007). Multiple disjoint power aware minimum connected dominating sets for efficient routing in wireless ad-hoc network. In Proceedings of the IEEE international conference on information and communication technology (pp. 336–340).
Banerjee, S., & Misra, A. (June 9–11 2002). Minimum energy paths for reliable communication in multi-hop wireless networks. In Proceedings of the ACM/IEEE MobHoc (pp. 146–156).
Scott, K., & Bamboos, N. (1996). Routing and channel assignment for low power transmission in PCS. In Proceedings of the ICUPC (pp. 498–502).
Song, L., & Dimitrios, H. (2008). Broadcasting energy efficiency limits in wireless networks. IEEE Transaction on Wireless Communications, 7(7), 2502–2511.
Le, L. B., & Mazumdar, R. (2010). Control of wireless networks with flow level dynamics under constant time scheduling. ACM Wireless Networks, 16(5),1355–1372.
Chunhua, X. (11–13 Dec. 2009). A kind of novel constrained multipath routing algorithm in mobile ad hoc networks. In Proceedings of the international conference on computational intelligence and software engineering (pp. 1–3).
Premalatha, J., & Balasubramanie, P. (2–4 Jan. 2010). Enhancing quality of service in MANETS by effective routing. In Proceedings of the international conference on wireless communication and sensor computing (pp. 1–5).
Wang, Y. (2010). Study on energy conservation in MANET. Journal of Networks, 5(6), 708–715.
Acknowledgments
Current paper is based on our previous published paper “Literature Survey on Power Control Algorithms for Mobile Ad-hoc Network” by V. P. Singh and Krishan Kumar in same Springer Journal (Journal’s Name-Wireless Personal Communications, October 2011, Volume 60, Issue 4, pp. 679–685). Literature survey was based on energy consumption control problem in mobile ad-hoc network. Energy consumption control is the main issue in ad-hoc network.
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Kumar, K., Singh, V.P. Power Consumption Based Simulation Model for Mobile Ad-hoc Network. Wireless Pers Commun 77, 1437–1448 (2014). https://doi.org/10.1007/s11277-013-1589-7
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DOI: https://doi.org/10.1007/s11277-013-1589-7