Wireless communications at its core is all about convenience – making it easy to apply a wide variety of network typologies quickly, easily, and cost-effectively. We often think of wireless in terms of a mobile device talking to a base station or access point – the point-to-multipoint topology, plus handoff between cells. And, normally, the interconnections between those cells use wire or perhaps a different form of point-to-point wireless. Suppose instead that the required interconnect was implemented as a form of relay, with one cell simply redirecting traffic wirelessly to the next, making it possible to implement almost any configuration; that’s the domain of the wireless mesh. In this research a mechanism on mobile data offloading using wireless mesh networks is performed. In which one source node is connected with a sink node or we can say base station for communication. When there is a traffic in between the communication then the source node can change their base station or sink node. This mechanism is shown in further results.

Mobile data offloading, HetNets, Queuing Theory, Incentive Schemes, Request Routing

[1] Apostolaras, A., Iosifidis, G., Chounos, K., Korakis, T. and Tassiulas, L., 2014, December. C2M: Mobile data offloading to mesh networks. In 2014 IEEE Global Communications Conference (pp. 4877-4883). IEEE.
[2] Ajith, A. and Venkatesh, T.G. Mobile Data Offloading for Streaming-Class Traffic with QoS Guarantee. International Journal of Interdisciplinary Telecommunications and Networking (IJITN), 7(4), pp.26-42, 2015.
[3] Andrews, J.G., Singh, S., Ye, Q., Lin, X. and Dhillon, H.S. An overview of load balancing in HetNets: Old myths and open problems. IEEE Wireless Communications, 21(2), pp.18-25, 2014.
[4] Chen, Y., Zhang, J., Zhang, Q. and Jia, J. A reverse auction framework for access permission transaction to promote hybrid access in femtocell network. In INFOCOM, 2012 Proceedings IEEE, pp. 2761-2765, March 2012, IEEE.
[5] Iosifidis, G., Gao, L., Huang, J. and Tassiulas, L., 2013, May. An iterative double auction for mobile data offloading. In Modeling & Optimization in Mobile, Ad Hoc & Wireless Networks (WiOpt), 2013 11th International Symposium on (pp. 154-161). IEEE.
[6] Arnold, O., Richter, F., Fettweis, G. and Blume, O. Power consumption modeling of different base station types in heterogeneous cellular networks. In 2010 Future Network & Mobile Summit, pp. 1-8, 2010 June. IEEE.
[7] Detti, A., Pisa, C., Salsano, S. and Blefari-Melazzi, N., Wireless Mesh Software Defined Networks (wmSDN). In WiMob, pp. 89-95, October 2013.
[8] Benyamina, D., Hafid, A. and Gendreau, M., Wireless mesh networks design—A survey. IEEE Communications surveys & tutorials, 14(2), pp.299-310, 2012.
[9] Benyamina, D., Hafid, A., Hallam, N., Gendreau, M. and Maureira, J.C., A hybrid nature-inspired optimizer for wireless mesh networks design.Computer Communications, 35(10), pp.1231-1246, 2012.
[10] Akyildiz, I.F. and Wang, X., 2005. A survey on wireless mesh networks.IEEE Communications magazine, 43(9), pp.S23-S30.
[11] Pathak, P.H. and Dutta, R., A survey of network design problems and joint design approaches in wireless mesh networks. IEEE Communications surveys & tutorials, 13(3), pp.396-428, 2011.
[12] Akyildiz, I.F., Wang, X. and Wang, W., Wireless mesh networks: a survey. Computer networks, 47(4), pp.445-487, 2005.
[13] Jun, J. and Sichitiu, M.L., MRP: Wireless mesh networks routing protocol. Computer Communications, 31(7), pp.1413-1435, 2008.
[14] Fdida, S., Friedman, T. and Parmentelat, T., 2010. OneLab: An open federated facility for experimentally driven future internet research. In New Network Architectures (pp. 141-152).Springer Berlin Heidelberg.
[15] Kazdaridis, G., Keranidis, S., Fiamegkos, A., Korakis, T., Koutsopoulos, I. and Tassiulas, L., Dynamic Frequency Selection through Collaborative Reporting in WLANs.