Open Access  Subscription or Fee Access

Mesh Network has the advantages of fast implementation, easy maintenance and low direct investment while comparing with the existing networks. Since Wireless mesh networks are implemented as wireless anchors, but they are not stabilized.WMN frequently affects by link failures. This paper presents the fast autonomous network reconfiguration system which provides the multi radio Wireless Mesh Networks to recover from link failure automatically to maintain the network performance. Fast autonomous network reconfiguration system gives the necessary changes in local radio and channel allocations to rescue from fails. Recover Mechanism have been introduced in order to increase the network performance while failure occurs.. In this research, we study if the extra infrastructure support can be exploited to build disjoint paths in those frameworks, while keeping the recovery path lengths close to the primary paths. Our evaluations show that it is possible to extend the proactive recovery mechanisms to provide support for nearly-disjoint paths. Energy consumption must be minimized while achieving high throughput and low delay.

IEEE 802.11, Multi-Radio WMNs, Self-Reconfigurable Networks, Wireless Link Failures.

Kyu-Han Kim and Kang G. Shin, ” Self reconfigurable wireless mesh networks” in IEEE/ACM Transactions on Networking, 2011.

MITRoofnet, http://www.pdos.lcs.mit.edu/roofnet.

I. Akyildiz, X. Wang, and W. Wang, “Wireless mesh networks: A survey,” Computer Networks, no. 47, pp. 445-487, 2005

“Netfilter, ”[Online]. Available: http://www.netfilter.org

D.B.Johnson and D. A. Maltz, “Dynamic source routing in adhoc wireless networks,” in the Book of Mobile Computing. Kluwer Academic Publishers, 1996, vol. 353.

D.S.D.Couto, D.Aguayo, J.Bicket, and R.Morris, “A high-throughput path metric for multi-hop wireless routing,” in Proceedings of ACM MobiCom, San Diego, CA, Sept. 2005.

“Atheros Communications,” San Jose, CA [Online]. Available: http:// www.atheros.com

K.Ramanchandran, E. Belding-Royer, and M. Buddhikot, “Interference awarechannel assignment in multi-radio wireless mesh networks,” in Proceedings of IEEE InfoCom, Barcelona, Spain, Apr. 2006.

D. Aguayo, J. Bicket, S. Biswas, G. Judd, and R. Morris, “Link-level measurements from an 802.11b mesh network,” in Proceedings of ACMSIGCOMM, Portland, OR, Aug. 2004.

M.Alicherry, R. Bhatia, and L. Li, “Joint channel assignment and routing for throughput optimization in multi-radio wireless mesh networks,”in Proceedings of ACM MobiCom, Cologne, Germany, Aug. 2005.

Kyu-Han Kim, Member, IEEE and Kang G. Shin,” Self reconfigurable wireless mesh networks” in IEEE/ACM Transactions on Networking, 2005.

M. Alicherry, R. Bhatia, and L. Li, “Joint channel assignment and routing for throughput optimization in multi-radio wireless mesh networks,”in Proceedings of ACM MobiCom, Cologne, Germany, Aug. 2005

Motorola, Inc., “Motorola, Inc., mesh broadband, ”Schaumburg, IL [Online]. Available: http://www.motorola.com/mesh

J. L. Gross and J. Yellen, “Graph theory and its applications, 2ndedition,” Chapman & Hall/CRC, 2006.

M. Kodialam and T. Nandagopal, “Characterizing the capacity region in multi-radio multi-channel wireless mesh networks,” in Proceedings of ACM MobiCom, Cologne, Germany, Aug. 2005.

A.Brzezinski,G.Zussman, and E.Modiano, “Enabling distributed throughput maximization in wireless mesh networks-a partitioning approach,” in Proceedings of ACM MobiCom, Los Angeles, CA, Sept.2006.

A.Raniwala and T. Chiueh, “Architecture and algorithms for an IEEE802.11-based multi-channel wireless mesh network,” in Proceedings of IEEE InfoCom, Miami, FL, Mar. 2005.

S. Nelakuditi, S. Lee, Y. Yu, J. Wang, Z. Zhong, G. Lu, and Z. Zhang,“Blacklist-aided forwarding in static multihop wireless networks,” in Proceedings of IEEE SECON, Santa Clara, CA, Sept. 2005.

S. Chen and K. Nahrstedt, “Distributed quality-of-service routing in adhoc networks,” IEEE JSAC, vol. 17, no. 8, 1999.