Implementation of ARS-STR in STR for Effective Energy Transmission

Authors

  • G. Vetrichelvi Research Scholar, Anna University, Academic Campus, Coimbatore - 641 047, Tamil Nadu, India
  • G. Mohan Kumar Principal, Park College of Engineering and Technology, Kaniyur, Coimbatore - 641 659, Tamil Nadu, India

DOI:

https://doi.org/10.51983/ajes-2013.2.1.1854

Keywords:

ARS - STR, WMNs, Energy Transmission

Abstract

Wireless mesh networks (WMNs) have emerged as a key technology for next generation wireless networking. Because of their advantages over other wireless networks, WMNs are undergoing rapid progress and inspiring numerous applications. In multi-hop wireless mesh networks (WMNs) experience frequent link failures caused by channel interference, dynamic obstacles and/or applications bandwidth demands. These failures cause severe performance degradation in WMNs or require expensive, manual network management for their real-time recovery. This paper presents an Autonomous network Reconfiguration System (ARS-STR) that enables a multi-radio WMN to autonomously recover from local link failures to preserve network performance. ARS-STR also improves channel efficiency.

References

I. Akyildiz, X. Wang, and W. Wang, “Wireless mesh networks: A survey,” Comput. Netw., Vol. 47, No. 4, pp. 445–487, Mar. 2005.

“MIT Roofnet,” [Online]. Available: http://www.pdos.lcs.mit.edu/ Roofnet

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

P. Kyasanur and N. Vaidya, “Capacity of multi-channel wireless networks: Impact of number of channels and interfaces,” in Proc. ACM MobiCom, Cologne, Germany, pp. 43–57, Aug. 2005.

K. Ramanchandran, E. Belding-Royer, and M. Buddhikot, “Interference- aware channel assignment in multi-radio wireless mesh networks,” in Proc. IEEE INFOCOM, Barcelona, Spain, pp. 1–12, Apr. 2006.

D. Aguayo, J. Bicket, S. Biswas, G. Judd, and R. Morris, “Linklevel measurements from an 802.11b mesh network,” in Proc. ACM SIGCOMM, Portland, OR, pp. 121–132, Aug. 2004.

A. Akella, G. Judd, S. Seshan, and P. Steenkiste, “Self-management in chaotic wireless deployments,” in Proc. ACM MobiCom, Cologne, Germany, pp. 185–199, Sep. 2005.

J. Zhao, H. Zheng, and G.-H. Yang, “Distributed coordination in dynamic spectrum allocation networks,” in Proc. IEEE DySPAN, Baltimore, MD, pp. 259–268, Nov. 2005.

A. Akella, G. Judd, S. Seshan, and P. Steenkiste, “Self-management in chaotic wireless deployments,” in Proc. ACM MobiCom, Cologne, Germany, pp. 185–199, Sep. 2005.

J. Zhao, H. Zheng, and G.-H. Yang, “Distributed coordination in dynamic spectrum allocation networks,” in Proc. IEEE DySPAN, Baltimore, MD, pp. 259–268, Nov. 2005.

M. J. Marcus, “Real time spectrum markets and interruptible spectrum: New concepts of spectrum use enabled by cognitive radio,” in Proc. IEEE DySPAN, Baltimore, MD, pp. 512–517, Nov. 2005.

M. Alicherry, R. Bhatia, and L. Li, “Joint channel assignment and routing for throughput optimization in multi-radio wireless mesh networks,” in Proc. ACM MobiCom, Cologne, Germany, pp. 58–72, Aug. 2005.

M. Kodialam and T. Nandagopal, “Characterizing the capacity region in multi-radio multi-channel wireless mesh networks,” in Proc. ACM MobiCom, Cologne, Germany, pp. 73–87, Aug. 2005.

A. Brzezinski, G. Zussman, and E. Modiano, “Enabling distributed throughput maximization in wireless mesh networks: A partitioning approach,” in Proc. ACM MobiCom, Los Angeles, CA, Sep. 2006.

A. Raniwala and T. Chiueh, “Architecture and algorithms for an IEEE 802.11-based multi-channel wireless mesh network,” in Proc. IEEE INFOCOM, Miami, FL, vol. 3, pp. 2223–2234, 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 Proc. IEEE SECON, Santa Clara, CA, pp. 252–262, Sep. 2005.

S. Chen and K. Nahrstedt, “Distributed quality-of-service routing in ad hoc networks,” IEEE J. Sel. Areas Commun., Vol. 17, No. 8, pp. 1488–1505, Aug. 1999.

L. Qiu, P. Bahl, A. Rao, and L. Zhou, “Troubleshooting multi-hop wireless networks,” in Proc. ACM SIGMETRICS, pp. 380–381, Jun. 2005.

D.Kotz, C. Newport, R. S. Gray, J. Liu, Y.Yuan, and C. Elliott, “Experimental evaluation of wireless simulation assumptions,” Dept. Comput. Sci., Dartmouth College, Hanover, NH, Tech. Rep. TR 2004-507, 2004.

T. Henderson, D.Kotz, and I. Abyzov, “The changing usage of amature campus-wide wireless network,” in Proc. ACM MobiCom, Philadelphia, PA, pp. 187–201, Sep. 2004.

Downloads

Published

05-05-2013

How to Cite

Vetrichelvi, G., & Mohan Kumar, G. (2013). Implementation of ARS-STR in STR for Effective Energy Transmission. Asian Journal of Electrical Sciences, 2(1), 20–25. https://doi.org/10.51983/ajes-2013.2.1.1854

Issue

Vol. 2 No. 1 (2013): January-June 2013

Section

Articles

License

Copyright (c) 2013 The Research Publication

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.