International Journal of Technology Enhancements and Emerging Engineering Research (ISSN 2347-4289)

IJTEEE >> Volume 2 - Issue 4, April 2014 Edition

International Journal of Technology Enhancements and Emerging Engineering Research  
International Journal of Technology Enhancements and Emerging Engineering Research

Website: http://www.ijteee.org

ISSN 2347-4289

Increased Throughput In MANETS With The Heterogeneous Environment

[Full Text]



Sree Vidhya I S, G.Sahaya Stalin Jose



Keywords: Throughput, InterManet Routing, Mobility model, Heterogeneous Network



Abstract: Mobile ad hoc network (MANET), flexible and self-autonomous wireless network architecture, is very promising to find many important applications in the daily information exchange, disaster relief, military troop communication, etc. In MANETS for long life and reliability the throughput capacity must be increased. This work deals the per node throughput capacity of a MANET, where the transmission power of each node can be controlled to adapt to a specified transmission range and a generalized two-hop relay with limited packet redundancy f is used for packet routing. Based on the concept of automatic feedback control and the Markov chain model, an Inter-MANET Routing protocol called InterMR that can handle the heterogeneity and dynamics of MANETs is used. First it defines an Inter-MANET address scheme based on a variety of node attributes .Next the contribution is to provide a seamless routing mechanism across heterogeneous MANETs without modifying the internal routing mechanisms in each MANET, by packet-level simulation, that the performance of InterMR will be improved by adaptive gateway assignment functionalities. From the routing values the throughput parameters is obtained. Increasing the transmission power of the nodes with this routing mechanism improves the capacity, and even at high packet rate increased throughput can be achieved.



[1]. J. Andrews, S. Shakkottai, R. Heath, N. Jindal,et.al “Rethinkinginformation theory for mobile ad hoc networks,” IEEE CommuMag.,vol. 46, no. 12, pp. 94–101, Dec. 2008

[2]. A. Goldsmith, M. Effros, R. Koetter, M. Medard, A. Ozdaglar, andL. Zheng, “Beyond shannon: the quest for fundamental performance limits of wireless ad hoc networks,” IEEE Commun. Mag., vol. 49,no. 5, pp. 195–205, May 2011.

[3]. AzrinaAbd Aziz, Y. AhmetSekercioglu, Paul Fitzpatrick, and MiloshIvanovich “A Survey on Distributed Topology Control Techniques for Extending the Lifetime of Battery Powered Wireless Sensor Networks” IEEE transactions on vehicular technology, vol. 62, no. 2, February 2013

[4]. D. Sampath and J. J. Garcia-Luna-Aceves. Prose: scalable routing in manets using prefix labels and distributed hashing. In SECON’09: 2009. IEEEPress

[5]. M. Grossglauser and D. N. Tse, “Mobility increases the capacity of ad hoc wireless networks,” in 2001 INFOCOM.

[6]. Y. Zhuang, J. Pan, and L. Cai, “Minimizing energy consumption with probabilistic distance distributions in wireless sensor networks,” in INFOCOM, 2010

[7]. C.-K. Chau, J. Crowcroft, K.-W.Lee, and S. H. Wong. Inter-domain routing for mobile ad hoc networks. In MobiArch ’08: Proceedings of the 3rd international workshop on Mobility in the evolving internet architecture, pages 61–66, New York, NY, USA, 2008. ACM

[8]. A. E. Gamal, J. Mammen, B. Prabhakar, and D. Shah, “Optimalthroughput-delay scaling in wireless networks—part I: the fluid model,”IEEE Trans. Inf. Theory, vol. 52, no. 6, pp. 2568–2592, June 2006.

[9]. JiajiaLiu,Xiaohong Jiang Hiroki Nishiyama and Nei Kato, “Exact Throughput Capacity under Power Control in Mobile Ad Hoc Networks” IEEE Transactions on communications, vol. 61, no. 1, January 2013

[10]. W. Liu, C. Zhang, G. Yao, and Y. Fang, “Delar: A device–energy–load aware relaying framework for heterogeneous mobile ad hoc networks,” IEEE J. Sel. Areas Commun., vol 9-10”

[11]. F. Dressler, A. Awad, and M. Gerla. Enable inter-domain routing in virtual coordinate based ad hoc and sensor networks. In Mobicom 2009 Poster: Proceedings of 15th ACM Annual International Conference on Mobile Computing and Networking, Poster section, 2009

[12]. X. Du, D. Wu, W. Liu, and Y. Fang, “Multiclass routing and mediumaccess control for heterogeneous mobile ad hoc networks,” IEEE Trans.Veh. Technol., vol. 55, no. 1, pp. 270–277, Jan. 2006.

[13]. A. Zaballos, A. Vallejo, and J. M. Selga.“Heterogeneous communicationarchitecture for the smart grid.” IEEE Network, 25(5):30–37, 2011

[14]. L. Villasenor-Gonzalez, Y. Ge, and L. Lament, “HOLSR: A hierarchicalproactive routing mechanism for mobile ad hoc networks,” IEEE Commun.Mag., vol. 43, no. 7, pp. 118–125, Jul. 2005.

[15]. Steven Weber, Jeffrey G. Andrews, Nihar Jindal, “Throughput and transmission capacity of ad hoc networks with channel state information” IEEE Transactions on communications, vol. 60, no. 10, October 2012

[16]. D. M. Shila and Y. Cheng, “Ad hoc wireless networks meet the infrastructure: mobility, capacity and delay,” in 2012 INFOCOM

[17]. VenkateshRamaiyan, Anurag Kumar, and Eitan Altmana, “Hop Distance and Power Control for a Single Cell, Dense, Ad Hoc Wireless Network” IEEE Transactions on mobile computing, vol. 11,no. 11, November 2012

[18]. J. Gao, J. Liu, X. Jiang, O. Takahashi, and N. Shiratori, “Exact capacity study for a class of Manets,” in 2012 ICCC.

[19]. Wei Liu, Chi Zhang, Guoliang Yao, and Yuguang Fang, “Relaying Framework for Heterogeneous Mobile Ad Hoc Networks”IEEE Transactions on p parallel and distributed systems, vol. 22, no. 12, December 2011

[20]. V. Ramasubramanian, Z. J. Haas, and E. G. Sirer. SHARP: A hybridadaptive routing protocol for mobile ad hoc networks. In Proc. ACMMOBIHOC, June 2003.