Performance Analysis of Interference Based Topology Control Algorithm Mobile Adhoc Network
|International Journal of Computer Science and Engineering|
|© 2016 by SSRG - IJCSE Journal|
|Volume 3 Issue 4|
|Year of Publication : 2016|
|Authors : R.Hamsaveni, N.Suneetha|
R.Hamsaveni, N.Suneetha, "Performance Analysis of Interference Based Topology Control Algorithm Mobile Adhoc Network" SSRG International Journal of Computer Science and Engineering 3.4 (2016): 34-38.
R.Hamsaveni, N.Suneetha,(2016). Performance Analysis of Interference Based Topology Control Algorithm Mobile Adhoc Network. SSRG International Journal of Computer Science and Engineering 3.4, 34-38.
Productive Topology control calculations are an essential thought in versatile specially appointed systems since they can build organize limit and lifetime of hubs. With the propel improvement of portable specially appointed systems (MANETs), there is a developing prerequisite of Quality of Service (QoS) as far as defer and vitality. With a specific end goal to resolve the defer issue, it is vital to consider topology control in postpone obliged environment with vitality proficient. The proposed Energy Efficiency and Minimum Delay disseminated topology control Algorithm executed framework, study on the defer obliged topology control issue, and consider postpone and vitality proficiency. Reproduction results are exhibited showing the viability of this new system when contrasted with other ways to deal with topology control.
 Q. Zhang, and Y. Q. Zhang, “Cross-layer design for QoS support inmultihop wireless networks,” Procedings of IEEE, vol. 96, no. 1, pp.64-76, 2008.
 R. Draves, J. Padhye, and B. Zill, “Routing in multi-radio, multi-hopwireless mesh networks,” in Proc. ACM MobiCom, pp. 114-128, 2004.
 Y. Yang, J. Wang, and R. Kravets, “Designing routing metrics formesh networks,” in Proc. IEEE Workshop on Wireless Mesh Networks(WiMesh), 2005.
 G. Sharma, R. Mazumdar, and N. B. Shroff, “Delay and capacity trade-offs in mobile ad hoc networks: a global perspective,” IEEE/ACM Trans.on Networking, vol. 15, no. 5, pp. 981-992, 2007.
 P. Li, C. Zhang, and Y. Fang, “Capacity and delay of hybrid wirelessbroadband access networks,” IEEE J. On Selected Areas in Communi-cations, vol. 27, no. 2, pp. 117-125, 2009.
 X. Zhu, P. Li, Y. Fang and Y. Wang, “Throughput and delay incooperative wireless networks with partial infrastructure,” IEEE Trans.On Vehicular Technology, vol. 58, no. 8, pp. 4620-4627, 2009.
 F. Xie, X.M. Zhang, J.F. Guo, and G.L. Chen, “A delay oriented adaptiverouting protocol for mobile ad hoc networks,(in Chinese with Englishabstract,” Journal of Software, vol. 16, no. 9, pp. 1661-1667, 2005.
 N. Burri, P.V. Rickenbach, R.Wattenhofer and Y. Weber, “ Topologycontrol made practical: increasing the performance of source routing, ”in Proc. 2nd International Conference on Mobile Ad-hoc and SensorNetworks, pp. 1-12, 2006.
 M. Burkhart, P. von Rickenbach, R. Wattenhofer, A. Zollinger, “Doestopology control reduce interference,” in Proc. ACM MobiHoc, pp. 9-19,2004.
 D.M. Blough, M. Leoncini, G. Resta, and P. Santi, “The kneighborsapproach to interference bounded and symmetric topology control in adhoc networks,” IEEE Trans. on Mobile Computing, vol. 5, no. 9, pp.1267-1282, 2006.
 J. Kim and Y. Kwon, “Interference-aware topology control for low ratewireless personal area networks,” IEEE Trans.on Consumer Electronics,vol. 55, no. 1, pp. 97-104, 2009.
 A. Muqattach,and M.M. Krunz, “A distributed transmission powercontrol protocol for mobile ad hoc networks,” IEEE Trans. on MobileComputing, vol. 3, no 2, pp. 113-128, 2004.
 S. C. Wang, D.S. Wei and S.-Y.Kuo, “An SPT-based topology controlalgorithm for wireless ad hoc networks,” Computer Communications,vol. 29, no. 16, pp. 3092-3103, 2007.
 M. Kadivar, M.E. Shiri, and M. Dahghan, “Distributed topology controlalgorithm based on one- and two-hop neighbors’ information for ad hocnetworks,” Computer Communications, vol. 32, no.2, pp. 368-375, 2009.
 D. Y. Xue, E. Ekici, “Delay-Guaranteed Cross-Layer Scheduling inMultihop Wireless Networks,” IEEE/ACM Trans. on Networking, vol.pp, no. 99, pp. 1-12, 2012.
Reproduction results are exhibited showing the viability of this new system when contrasted with other ways to deal with topology control.