Abstract
This paper studies two key challenges in wireless multi-hop network: resource utility and network throughput. Our solution is a multi-constrained optimization scheme based on cross-layer design and its cooperative mechanism. The proposed scheme incorporates the energy threshold in physical layer and the channel capacity in link layer, and integrates the advantages of tight coupling and loose coupling. In addition, the bargaining game theory is applied to analyze the bargaining behavior of network nodes. The simulation results show that our optimization scheme can significantly improve the fairness and effectiveness of the network.
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Cerpa, A., Elson, J., Hamilton, M., Zhao, J., Estrin, D., & Girod, L. (2001). Habitat monitoring: Application driver for wireless communications technology. In J. Escobar (Ed.), SIGCOMM LA’01 workshop on data communication in latin America and the Caribbean (pp. 20–41). New York: ACM.
Whitehead, P. (2000). Mesh networks: A new architecture for broadband wireless access systems. In Radio and wireless conference, 2000 (pp. 43–46). RAWCON 2000, IEEE.
Liao, W.-H., Sheu, J.-P., & Tseng, Y.-C. (2001). GRID: A fully location-aware routing protocol for mobile Ad Hoc networks. Telecommunication Systems, 18(1–3), 37–60.
Chlamtac, I., Conti, M., & Liu Jennifer, J.-N. (2003). Mobile ad hoc networking: Imperatives and challenges. Ad Hoc Networks, 1(1), 13–64.
Bruno, R., Conti, M., & Gregori, E. (2005). Mesh networks: Commodity multi-hop Ad Hoc networks. IEEE Communications Magazine, 43(3), 123–131.
Li, S., Lin, Y., Son, S. H., Stankovic, J. A., & Wei, Y. (2004). Event detection services using data service middleware in distributed sensor networks. Telecommunication Systems, 26(2–4), 351–368.
Zheng, J., Lorenz, P., & Dini, P. (2006). Wireless sensor networking. IEEE Network, 20(3), 4–5.
Akyildiz, Ian F., Wang, X., & Wang, W. (2005). Wireless mesh networks: A survey. Computer Networks and ISDN Systems., 47(4), 445–487.
Zhou, L., Wang, X., Muntean, G.-M., & Geller, B. (2010). Distributed scheduling scheme for video streaming over multi-channel multi-radio multi-hop wireless networks. IEEE Journal on Selected Areas in Communications, 28(3), 409–419.
Zhou, L., Chao, H.-C., & Vasilakos, A. (2011). Joint forensics-scheduling strategy for delay-sensitive multimedia applications over heterogeneous networks. IEEE Journal on Selected Areas in Communications, 29(7), 1358–1367.
Ismo, H., & Merja, T. (2006). From vertical to horizontal architecture: A cross-layer implementation in a sensor network node. In C. Imrich (Ed.), The 1st international conference on integrated internet ad hoc and sensor networks (p. 6). New York: ACM.
Xu, L. (2005). Cross layer design and mult-packet receipt MAC protocol. Journal of Computer Application, 25(6), 1227–1229. (in Chinese).
Gunasekaran, R., & Qi, H. (2008). XLRP: Cross layer routing protocol for wireless sensor networks. In WCNC 2008, IEEE wireless communications & networking conference (pp. 2135–2140). New York: IEEE.
Zamani, B., Mohammadi, M., Jalalvand, A., Fakouri, R., & Fathy, M. (2008). A cross model approach to support of QOS parameters in wireless sensor networks. In INTERSPEECH 2008, 9th annual conference of the international speech communication association (pp. 41–45). Washington, DC: IEEE.
Chiang, M., Low, S. H., Calderbank, A. R., & Doyle, J. C. (2007). Layering as optimization decomposition: A mathematical theory of network architectures. Proceedings of the IEEE, 95(1), 255–312.
Fan, R., & Han, R. (2006). Game theory. Wuhan: Wuhan University Press.
Zhang, X., & Li, B. (2008). DICE: A game theoretic framework for wireless multipath network coding. In MobiHoc ’08, proceedings of the 9th ACM international symposium on mobile ad hoc networking and computing (pp. 293–302). New York: ACM.
Nash, J. F. (1950). The bargaining problem. Econometrica, 18(2), 155–162.
Yaïche, H., Ravi, R., & Rosenberg, C. (2000). A game theoretic framework for bandwidth allocation and pricing in broadband networks. IEEE/ACM Transactions on Networking, 8(5), 667–678.
Jain, R., Chiu, D., & Hawe, W. (1984). A quantitative measure of fairness and discrimination for resource allocation in shared computer systems. DEC Research Report TR-301.
Acknowledgments
This work is supported partially by National Natural Science Foundation of China with grant NO. 60502047, NO. 61072080, NO. 61202450 and NO. U1405255. Grand-in-Aid for Scientific Research of Japan Society for Promotion of Science (JSPS) and the Natural Science Foundation of Fujian Province with grant NO. 2008J0014, 2013J01222, Fujian Normal University Innovative Research Team No. IRTL1207.
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Xu, L., Chen, X., Li, J. et al. Cross-layer design in wireless multi-hop networks: a bargaining game theoretic analysis. Telecommun Syst 60, 149–158 (2015). https://doi.org/10.1007/s11235-014-9929-9
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DOI: https://doi.org/10.1007/s11235-014-9929-9