Assessment of Wireless Device Organization Control Switch using Average Access Control

International Journal of Mobile Computing and Application
© 2018 by SSRG - IJMCA Journal
Volume 5 Issue 2
Year of Publication : 2018
Authors : Zia-Ashraf
How to Cite?

Zia-Ashraf, "Assessment of Wireless Device Organization Control Switch using Average Access Control," SSRG International Journal of Mobile Computing and Application, vol. 5,  no. 2, pp. 18-22, 2018. Crossref,


 Energy protection is the supreme significant apprehension in device systems, as extreme of the nodes are cordless motorized. Vigor control is not associated to any particular layer, since we can relate power protection methods in all layers. But extreme of the power control devices are employed in MAC layer. Wireless device organizations have been comprehensively used in frequent significant fields. Average Access Control actions have a substantial result on the determination and concert of projection organizations. By current, most actions use the same broadcast control when device nodes send communications. Here we analysis a Control Switch of this propriety for this apparatus system with overall power ingestion and improvement the amount of the grid. Thus our etiquette comprises two stages; in the first phase we decrease the power ingesting and in the second phase we improve the increasing quantity of the network However, the energy reduction of a node appreciations due to energy exhausted in node detection. This growths the amount of the network since the location of a interrupted protuberance has be positioned found, that consequences into successful computer operator of frames.


 MAC layer, power consumption, throughput, wireless sensor networks


[1] Michaela Cardei and Jie Wu Energy-Efficient Coverage Problems in Wireless Ad Ho c Sensor Net-works, Journal of Computer Communications on Sensor Networks, 2004. 
[2] D.Lal, A. Manjeshwar, F. Herrmann, E. Uysal-Biyikoglu, and A. Keshavarzian. Measurement and characterization of link quality metrics in energy constrained wireless sensor networks. In IEEE GLOBE COM, pages 172–187, December 2003. 
[3] Niels Reijers, GertjanHalkes, and KoenLangendoen. Link layer measurements in sensor networks, In 1st IEEE Int. Conference on Mobile Ad hoc and Sensor Systems (MASS ’04), Oct 2004. 
[4] Gang Zhou, Tian He, Sudha Krishnamurthy, and John A. Stankovic, Impact of radio irregularity on wireless sensor networks. In Proceedings of the 2nd international conference on Mobile systems, applications, and services, pages 125–138, ACM Press, 2004. 
[5] A.Loganathan , S.Harish , Dr. R.Kanthavel,"Compressed Sensing Based Image Encoding Technique for Wireless Sensor Networks",International Journal of P2P Network Trends and Technology (IJPTT),Volume - 4 Issue - 2, 2014 
[6] L.Song and C. Yu, Spatial Reuse with Collision-Aware DCF in Mobile Ad Hoc Networks, ICPP, pages 219–228, 2006. 
[7] T.-S.Kim and S.-L Kim, Random Power Control in Wireless Ad Hoc Network, IEEE Communications Letters, 9(12):1046–1048, December 2005. 
[8] D.Kim, C. K. Toh. F-PCM: a fragmentation-based power control MAC protocol for IEEE 802.11 mobile ad hoc networks. Wireless Communications and Mobile Computing, 6(5):727–739, August 2006. 
[9] VikasKawadia. Principles and Protocols for Power Control in Wireless Ad Hoc Networks, IEEE Journal on Selected Areas in Communications, 23(1):76–88, January 2005. 
[10] J.P.Monks V. Bharghavan, W. Hwu, A Power Controlled Multiple Access protocol for wireless packet networks, Proceedings of the IEEE INFOCOM, April 2001. 
[11] K.Radhika , Ch. Suresh Babu,"An Improved Local Broadcast Transmission Reduction Technique in Wireless Networks"International Journal of Computer & Organization Trends (IJCOT),Volume- 3 Issue- 6 2013. 
[12] S.Agarwal, S. Krishnamurthy, R. Katz, and S. Dao, “Distributed power control in ad hoc wireless networks,” Proc. of Personal and Indoor Mobile Radio Communication (PIMRC), volume 2, pages 59-66. IEEE, October 2001. 
[13] A.Pires, J. F. de Rezende , and C. Cordeiro, “ALCA: A new scheme for power control on 802.11 ad hoc networks” , Proc. of IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks ( WoWMoM), pages 475-477, June 2005. 
[14] Muqattash and M. Krunz, “POWMAC: A Single-Channel Power-Control Protocl for Throughput Enhancement in Wireless Ad Hoc Networks”, Proc. of IEEE, volume 23, issue 5, pages: 1065-1084, May 2005. 
[15] Q.S.Wang, X. M. Zhang, T. Ma, H. Tang,“A survey of power control in ad hoc wireless networks”, Journal of Computer Science, July 2004 (in Chinese with English abstract). 
[16] Q.S.Wang, X. M. Zhang, G.L. Chen,“Interpolation method–based power aware routing for mobile ad hoc networks”, Journal of Computer Engineering, 32(01), January 2006(in Chinese with English abstract). 
[17] Luiz H. A. Correia, Daniel F. Macedo, Daniel A. C. Silva, Aldri L. dos Santos, Antonio A. F. Loureiro, Jose Marcos S. Nogueira, “Transmission power control in MAC protocols for wireless sensor networks”, Proc. of the 8th ACM international symposium on Modeling, analysis and simulation of wireless and mobile systems, pages 282-289, ACM Press, 2005.