An Efficient Evolutionary and Cache Based Cooperative Communication in Wireless Sensor Network

M.Srinivasa Rao; N.Sarath Babu

doi:https://doi.org/10.14445/22315381/IJETT-V15P265

Research Article | Open Access | Download PDF

Volume 15 | Number 2 | Year 2014 | Article Id. IJETT-V15P265 | DOI : https://doi.org/10.14445/22315381/IJETT-V15P265

An Efficient Evolutionary and Cache Based Cooperative Communication in Wireless Sensor Network

M.Srinivasa Rao , N.Sarath Babu

Citation :

M.Srinivasa Rao , N.Sarath Babu, "An Efficient Evolutionary and Cache Based Cooperative Communication in Wireless Sensor Network," International Journal of Engineering Trends and Technology (IJETT), vol. 15, no. 2, pp. 335-339, 2014. Crossref, https://doi.org/10.14445/22315381/IJETT-V15P265

Abstract

Cooperative communication is the one of the current interesting research issue in the field of wireless sensors, various cache based approaches proposed by various authors but cache individually cannot increase the performance over MANET. Topology architectures defined for data transmission and cooperative communication in MANET, In this approach we are introducing an empirical model for cooperative communication with one of the evolutionary algorithm along with cache implementation which is proposed in previous mechanism, In this approach we consider the factors of signal strength and channel capacity for calculating the communication cost then we generates the chromosomes for data transmission between source and destination through intermediate nodes.

Keywords

Cooperative communication, Cache, MANET, Wireless Sensor Networks

References

[1] Distributed Cooperative Caching in Social Wireless Networks. Mahmoud Taghizadeh, Kristopher Micinski, Charles Ofria, Eric Torng, and SubirBiswas
[2] Improving On-Demand Data Access Efficiency InManets With Cooperative Caching By Yu Du
[3] A Survey of Web Cache Replacement StrategiesStefan podlipnig and laszlobo¨ szo¨ rmenyi
[4] A. Chankhunthod and P. B. Danzig and C. Neerdaels and M. F. Schwartz and K.J. Worrell, A hierarchical internet object cache," in USENIX Annual Technical Conference, 1996.
[5] L. Fan and P. Cao and J. Almeida and A. Z. Broder, Summary cache: a scalable wide-area web cache sharing protocol," IEEE/ACM Transactions on Networking, vol. 8, no. 3, pp. 281{293, 2000.
[6] S. Iyer and A. Rowstron and P. Druschel, Squirrel: A decentralized peer-to-peer web cache," in PODC, 2002.
[7] S. Podlipnig and L. Boszormenyi, “A Survey of Web Cache Replacement Strategies,” ACM Computing Surveys, vol. 35, pp. 374-398, 2003.
[8] A. Chaintreau, P. Hui, J. Crowcroft, C. Diot, R. Gass, and J. Scott, “Impact of Human Mobility on Opportunistic Forwarding Algorithms,” IEEE Trans. Mobile Computing, vol. 6, no. 6,pp. 606-620, June 2007.
[9] “BU-Web-Client - Six Months of Web Client Traces,” http://www.cs.bu.edu/techreports/1999-011-usertrace-98.gz, 2012.
[10] A. Wolman, M. Voelker, A. Karlin, and H. Levy, “On the Scale and Performance of Cooperative Web Caching,” Proc. 17th ACM Symp.Operating Systems Principles, pp. 16-31, 1999.
[11] S. Dykes and K. Robbins, “A Viability Analysis of Cooperative Proxy Caching,” Proc. IEEE INFOCOM, 2001.
[12] M. Korupolu and M. Dahlin, “Coordinated Placement and Replacement for Large-Scale Distributed Caches,” IEEE Trans. Knowledge and Data Eng., vol. 14, no. 6, pp. 1317-1329, Nov. 2002.