IP Anycast Architecture

  IJCOT-book-cover
 
International Journal of Computer & Organization Trends  (IJCOT)          
 
© 2012 by IJCOT Journal
Volume-2 Issue-6                          
Year of Publication : 2012
Authors :- Akash K Singh,

MLA

- Akash K Singh,  IP Anycast Architecture. International Journal of Computer & organization Trends (IJCOT), V2(6):1-50 Nov - Dec 2012, ISSN 2249-2593, www.ijcotjournal.org. Published by Seventh Sense Research Group.

Abstract—This paper illustrates the methodology and architecture for network addressing and routing in which datagram packets routed through mathematical topological nearest node in a cluster of potential receivers that are being identified by equivalent destination address space. Mathematical framework is proposed to improve the Anycast usage.

References-

[1] Dynamics and Control of Large Electric Power Systems. Ilic, M. and Zaborszky, J. John Wiley & Sons, Inc. © 2000, p. 756.
[2] Modeling and Evaluation of Intrusion Tolerant Systems Based on Dynamic Diversity Backups. Meng, K. et al. Proceedings of the 2009 International Symposium on Information Processing (ISIP’09). Huangshan, P. R. China, August 21-23, 2009, pp. 101–104
[3] Characterizing Intrusion Tolerant Systems Using A State Transition Model. Gong, F. et al., April 24, 2010.
[4] Energy Assurance Daily, September 27, 2007. U.S. Department of Energy, Office of Electricity Delivery and Energy Reliability, Infrastructure Security and Energy Restoration Division. April 25, 2010.
[5] CENTIBOTS Large Scale Robot Teams. Konoledge, Kurt et al. Artificial Intelligence Center, SRI International, Menlo Park, CA 2003.
[6] Handling Communication Restrictions and Team Formation in Congestion Games, Agogino, A. and Tumer, K. Journal of Autonomous Agents and Multi Agent Systems, 13(1):97–115, 2006.
[7] Robotics and Autonomous Systems Research, School of Mechanical, Industrial and Manufacturing Engineering, College of Engineering, Oregon State University
[8] D. Dietrich, D. Bruckner, G. Zucker, and P. Palensky, “Communication and computation in buildings: A short introduction and overview,” IEEE Trans. Ind. Electron., vol. 57, no. 11, pp. 3577–3584, Nov. 2010.
[9] V. C. Gungor and F. C. Lambert, “A survey on communication networks for electric system automation,” Comput. Networks, vol. 50, pp. 877–897, May 2006.
[10] S. Paudyal, C. Canizares, and K. Bhattacharya, “Optimal operation of distribution feeders in smart grids,” IEEE Trans. Ind. Electron., vol. 58, no. 10, pp. 4495–4503, Oct. 2011.
[11] D. M. Laverty, D. J. Morrow, R. Best, and P. A. Crossley, “Telecommunications for smart grid: Backhaul solutions for the distribution network,” in Proc. IEEE Power and Energy Society General Meeting, Jul. 25– 29, 2010, pp. 1–6.
[12] L. Wenpeng, D. Sharp, and S. Lancashire, “Smart grid communication network capacity planning for power utilities,” in Proc. IEEE PES, Transmission Distrib. Conf. Expo., Apr. 19–22, 2010, pp. 1–4.
[13] Y. Peizhong, A. Iwayemi, and C. Zhou, “Developing ZigBee deployment guideline under WiFi interference for smart grid applications,” IEEE Trans. Smart Grid, vol. 2, no. 1, pp. 110–120, Mar. 2011.
[14] C. Gezer and C. Buratti, “A ZigBee smart energy implementation for energy efficient buildings,” in Proc. IEEE 73rd Veh. Technol. Conf. (VTC Spring), May 15–18, 2011, pp. 1–5.
[15] R. P. Lewis, P. Igic, and Z. Zhongfu, “Assessment of communication methods for smart electricity metering in the U.K.,” in Proc. IEEE PES/IAS Conf. Sustainable Alternative Energy (SAE), Sep. 2009, pp. 1–4.
[16] A. Yarali, “Wireless mesh networking technology for commercial and industrial customers,” in Proc. Elect. Comput. Eng., CCECE,May 1–4, 2008, pp. 000047–000052.
[17] M. Y. Zhai, “Transmission characteristics of low-voltage distribution networks in China under the smart grids environment,” IEEE Trans. Power Delivery, vol. 26, no. 1, pp. 173–180, Jan. 2011.
[18] V. Paruchuri, A. Durresi, and M. Ramesh, “Securing powerline communications,” in Proc. IEEE Int. Symp. Power Line Commun. Appl., (ISPLC), Apr. 2–4, 2008, pp. 64–69.
[19] Q.Yang, J. A. Barria, and T. C. Green, “Communication infrastructures for distributed control of power distribution networks,” IEEE Trans. Ind. Inform., vol. 7, no. 2, pp. 316–327, May 2011. [20] T. Sauter and M. Lobashov, “End-to-end communication architecture for smart grids,” IEEE Trans. Ind. Electron., vol. 58, no. 4, pp. 1218–1228, Apr. 2011.
[21] K. Moslehi and R. Kumar, “Smart grid—A reliability perspective,” Innovative Smart Grid Technologies (ISGT), pp. 1–8, Jan. 19–21, 2010. [22] Southern Company Services, Inc., “Comments request for information on smart grid communications requirements,” Jul. 2010
[23] R. Bo and F. Li, “Probabilistic LMP forecasting considering load uncertainty,” IEEE Trans. Power Syst., vol. 24, pp. 1279–1289, Aug. 2009.
[24] Power Line Communications, H. Ferreira, L. Lampe, J. Newbury, and T. Swart (Editors), Eds. New York: Wiley, 2010.
[25] G. Bumiller, “Single frequency network technology for fast ad hoc communication networks over power lines,” WiKu-Wissenschaftsverlag Dr. Stein 2010.
[31] G. Bumiller, L. Lampe, and H. Hrasnica, “Power line communications for large-scale control and automation systems,” IEEE Commun. Mag., vol. 48, no. 4, pp. 106–113, Apr. 2010.
[32] M. Biagi and L. Lampe, “Location assisted routing techniques for power line communication in smart grids,” in Proc. IEEE Int. Conf. Smart Grid Commun., 2010, pp. 274–278.
[33] J. Sanchez, P. Ruiz, and R. Marin-Perez, “Beacon-less geographic routing made partical: Challenges, design guidelines and protocols,” IEEE Commun. Mag., vol. 47, no. 8, pp. 85–91, Aug. 2009.
[34] N. Bressan, L. Bazzaco, N. Bui, P. Casari, L. Vangelista, and M. Zorzi, “The deployment of a smart monitoring system using wireless sensors and actuators networks,” in Proc. IEEE Int. Conf. Smart Grid Commun. (SmartGridComm), 2010, pp. 49–54.
[35] S. Dawson-Haggerty, A. Tavakoli, and D. Culler, “Hydro: A hybrid routing protocol for low-power and lossy networks,” in Proc. IEEE Int. Conf. Smart Grid Commun. (SmartGridComm), 2010, pp. 268–273.
[36] S. Goldfisher and S. J. Tanabe, “IEEE 1901 access system: An overview of its uniqueness and motivation,” IEEE Commun. Mag., vol. 48, no. 10, pp. 150–157, Oct. 2010.
[37] V. C. Gungor, D. Sahin, T. Kocak, and S. Ergüt, “Smart grid communications and networking,” Türk Telekom, Tech. Rep. 11316-01, Apr 2011.

Keywords— IP Anycast, Multicast, Mobile IPV6, Addressing, Routing