publication . Article . Other literature type . 2018

a game theoretic optimization of rpl for mobile internet of things applications

Kharrufa, Harith; Al-Kashoash, Hayder; Kemp, Andrew H.;
Open Access
  • Published: 15 Mar 2018 Journal: IEEE Sensors Journal, volume 18, pages 2,520-2,530 (issn: 1530-437X, eissn: 2379-9153, Copyright policy)
  • Publisher: Institute of Electrical and Electronics Engineers (IEEE)
  • Country: United Kingdom
Abstract
The presence of mobile nodes in any wireless network can affect the performance of the network, leading to higher packet loss and increased energy consumption. However, many recent applications require the support of mobility and an efficient approach to handle mobile nodes is essential. In this paper, a game scenario is formulated, where nodes compete for network resources in a selfish manner, to send their data packets to the sink node. Each node counts as a player in the non-cooperative game. The optimal solution for the game is found using the unique Nash equilibrium (NE), where a node cannot improve its pay-off function while other players use their current...
Subjects
free text keywords: Instrumentation, Electrical and Electronic Engineering, Routing protocol, Packet loss, Electronic engineering, Energy consumption, Throughput, Nash equilibrium, symbols.namesake, symbols, Computer network, business.industry, business, Wireless network, Received signal strength indication, Engineering, Network packet
22 references, page 1 of 2

[1] M. R. Palattella, N. Accettura, X. Vilajosana, T. Watteyne, L. A. Grieco, G. Boggia, and M. Dohler, “Standardized protocol stack for the internet of (important) things,” Communications Surveys & Tutorials, IEEE, vol. 15, no. 3, pp. 1389-1406, 2013.

[2] I. Korbi, M. Ben Brahim, C. Adjih, and L. A. Saidane, “Mobility enhanced RPL for wireless sensor networks,” in Proceedings of the Third International Conference on the Network of the Future (NOF). IEEE, 2012, pp. 1-8.

[3] B. Tian, K. M. Hou, H. Shi, X. Liu, X. Diao, J. Li, Y. Chen, and J.-P. Chanet, “Application of modified RPL under VANET-WSN communication architecture,” in Proceedings of the Fifth International Conference on Computational and Information Sciences (ICCIS). IEEE, 2013, pp. 1467-1470.

[4] C. Cobarzan, J. Montavont, and T. Noel, “Analysis and performance evaluation of rpl under mobility,” in Proceedings of the IEEE Symposium on Computers and Communications (ISCC). IEEE, 2014, pp. 1-6.

[5] O. Gaddour, A. Koubaˆa, and M. Abid, “Quality-of-service aware routing for static and mobile ipv6-based low-power and lossy sensor networks using rpl,” Ad Hoc Networks, vol. 33, pp. 233-256, 2015. [OpenAIRE]

[6] F. Gara, L. Ben Saad, R. Ben Ayed, and B. Tourancheau, “RPL protocol adapted for healthcare and medical applications,” in Proceedings of the International Wireless Communications and Mobile Computing Conference (IWCMC). IEEE, 2015, pp. 690-695. [OpenAIRE]

[7] H. Fotouhi, D. Moreira, and M. Alves, “mrpl: Boosting mobility in the internet of things,” Ad Hoc Networks, vol. 26, pp. 17-35, 2015.

[8] M. R. Anand and M. P. Tahiliani, “mRPL++: Smarter-hop for optimizing mobility in rpl,” in Proceedings of the IEEE Region 10 Symposium (TENSYMP). IEEE, 2016, pp. 36-41.

[9] H. Kharrufa, H. Al-Kashoash, Y. Al-Nidawi, M. Q. Mosquera, and A. H. Kemp, “Dynamic rpl for multi-hop routing in IoT applications,” in 13th Annual Conference onWireless On-demand Network Systems and Services (WONS). IEEE, 2017, pp. 100-103. [OpenAIRE]

[10] P. Levis, T. Clausen, J. Hui, O. Gnawali, and J. Ko, “The trickle algorithm,” Internet Engineering Task Force, RFC6206, 2011.

[11] P. Thubert, “Objective function zero for the routing protocol for lowpower and lossy networks (rpl),” 2012.

[12] O. Gnawali and P. Levis, “The etx objective function for rpl,” Working Draft, IETF Secretariat, Internet-Draft draft-gnawali-roll-etxof00, February 2010. [Online]. Available: http://www.ietf.org/internetdrafts/draft-gnawali-roll-etxof-00

[13] Y. Al-Nidawi, H. Yahya, and A. H. Kemp, “Tackling mobility in low latency deterministic multihop ieee 802.15. 4e sensor network,” IEEE Sensors Journal, vol. 16, no. 5, pp. 1412-1427, 2016.

[14] --, “Impact of mobility on the IoT mac infrastructure: Ieee 802.15. 4e tsch and lldn platform,” in IEEE 2nd World Forum on Internet of Things (WF-IoT). IEEE, 2015, pp. 478-483.

[15] J. Montavont, D. Roth, and T. Noe¨l, “Mobile ipv6 in internet of things: Analysis, experimentations and optimizations,” Ad Hoc Networks, vol. 14, pp. 15-25, 2014.

22 references, page 1 of 2
Powered by OpenAIRE Research Graph
Any information missing or wrong?Report an Issue