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Efficient Data Transfer by Mobility Adjustment Algorithm for Clustered Mobile Ad-Hoc Networks

I. Alagiri
I. Alagiri
, 
V. Madhuviswanatham
V. Madhuviswanatham
 and 
P. VenkataKrishna
P. VenkataKrishna
   | Jul 15, 2014
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Published Online: Jul 15, 2014
Page range: 50 - 64
DOI: https://doi.org/10.2478/cait-2014-0019
Keywords
© 2014 I. Alagiri et. al.
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Basagni, S., M. Conti, S. Giordano, I. Stojmenovic. Mobile Ad-Hoc Networking. Hoboken, NJ, USA, IEEE Press, Wiley Inderscience, 2004.10.1002/0471656895Search in Google Scholar

2. Perkins, B. P. Highly Dynamic Destination-Sequenced Distance Vector Routing (DSDV) for Mobile Computers. - In: Proceedings of ACM SIGCOMM'94, 1994, 234-244.10.1145/190314.190336Search in Google Scholar

3. Clausen, T., P. Jacquet. Optimized Link State Routing Protocol (OLSR). - In: IETF Mobile Ad-Hoc Networking Working Group INTERNETDRAFT, CF3626, October 2003. http://www. ietf. org/rfc/rfc3626. txt10.17487/rfc3626Search in Google Scholar

4. Perkins, C., E. Belding-R oyer, S. D a s. Ad-Hoc On-Demand Distance Vector (AODV) Routing. - In: IETF Mobile Ad-Hoc Networking Working Group INTERNETDRAFT, RFC3561, July 2003. http://www. ietf. org/rfc/rfc3561. txt10.17487/rfc3561Search in Google Scholar

5. Johnson, D., Y. Hu, D. Maltz. The Dynamic Source Routing Protocol (DSR). - In: IETF Mobile Ad-Hoc Networking Working Group INTERNET DRAFT, RFC 4728, February 2007. http://www. ietf. org/rfc/rfc4728. txt.10.17487/rfc4728Search in Google Scholar

6. Pearlman, M. R., Z. J. Haas. Determining the Optimal Configuration for the Zone Routing Protocol. - IEEE Journal on Selected Areas in Communications, Vol. 17, 1999, Issue 8, 1395-1414.10.1109/49.779922Search in Google Scholar

7. Samar, P., M. R. Pearlman, Z. J. Haas. Independent Zone Routing: An Adaptive Hybrid Routing Framework for Ad-Hoc Wireless Networks. - IEEE/ACM Transactions on Networking, August 2004.10.1109/TNET.2004.833153Search in Google Scholar

8. Murthy, C. S. R., B. S. Manoj. Ad-Hoc Wireless Networks: Architectures and Protocols. New Jersey, Prentice Hall PTR, 2004.Search in Google Scholar

9. Baker, D. J., A. Ephremides. The Architectural Organization of a Mobile Radio Network via a Distributed Algorithm. - IEEE Transactions on Communications, Vol. 29, 1981, No 11, 1694-1701.10.1109/TCOM.1981.1094909Search in Google Scholar

10. Parekh, A. K. Selecting Routers in Ad-Hoc Wireless Network. - In: Proceedings of the SBT/IEEE International Telecommunication Symposium (ITs'94), 1994.Search in Google Scholar

11. Gerla, M., J. T. C. Tsai. Multicluster, Mobile, Multimedia Radio Network. - Wireless Networks, Vol. 1, 1995, No 3, 255-265.10.1007/BF01200845Search in Google Scholar

12. Sharma, Anju, ShiniAgarwal, RavindraSinghRathore. Cluster Based Routing in Mobile Ad-Hoc Wireless Networks Using Neuro-Genetic Paradigm. -International Journal of Scientific & Engineering Research, Vol. 3, July 2012, Issue 7.Search in Google Scholar

13. Gomathi, M., G. Rajendran. Fuzzy Cost Enabled Cluster Based Multipath Routing Algorithm for Mobile Ad-Hoc Networks. - Journal of Computer Science, Vol. 8, 2012, Issue 9, 1434-1440.10.3844/jcssp.2012.1434.1440Search in Google Scholar

14. Ephremides, A., J. E. WIeselthIer, D. J. Baker. A Design Concept for Reliable Mobile Radio Networks with Frequency Hopping Signaling. -Proceedings of IEEE, Vol. 75, 1987, No 1, 56-73.10.1109/PROC.1987.13705Search in Google Scholar

15. Baker, D. J., A. Ephremides. The Architectural Organization of a Mobile Radio Network via a Distributed Algorithm. - IEEE Transactions on Communications, Vol. 29, 1981, No 11, 1694-1701.10.1109/TCOM.1981.1094909Search in Google Scholar

16. Basu, P., N. Khan, T. D. C. Little. A Mobility Based Metric for Clustering in Mobile Ad-Hoc Networks. - In: Proceedings of IEEE Workshop on Wireless Networks and Mobile Computing (ICDCs'01), Phoenix, Ariz, USA, 2001.Search in Google Scholar

17. Basagni, S. Distributed Clustering for Ad-Hoc Networks. - In: Proceedings of the International Symposium on Parallel Architectures, Algorithms and Networks (I-SPAN'99), 1999, 310-315.Search in Google Scholar

18. Ghosh, R., S. Basagni. Limiting the Impact of Mobility on Ad-Hoc Clustering. - In: Proceedings of 2nd ACM International Workshop on Performance Evaluation of Wireless Ad-Hoc, Sensor, and Ubiquitous Networks (PE-WASUN'05), Montreal, Canada, October 2005, 197-204.10.1145/1089803.1089986Search in Google Scholar

19. Das, S., M. Chatterjee, D. Turgut. WCA: A Weighted Clustering Algorithm for Mobile Ad-Hoc Networks. - Journal of Cluster Computing, Vol. 5, 2002, No 2, 193-204.10.1023/A:1013941929408Search in Google Scholar

20. Ramanathan, R., R. Rosaleshain. Topology Control of Multihop Wireless Networks Using Transmit Power Adjustment. - In: Proceedings of 19th Annual Joint Conference of the IEEE Computer and Communications Societies (INFO-COM'00), 2000, 404-413.Search in Google Scholar

21. Paul, K., S. Bandyopadhyay. Self-Adjusting Transmission Range Control of Mobile Hosts in Ad-Hoc Wireless Networks for Stable Communication. - In: Proceedings of 6th International Conference on High Performance Computing (HiPC'99), Kolkata, India, 1999.Search in Google Scholar

22. Chinara, Suchismita, SantanukumarRath. Topology Control by Transmission Range Adjustment Protocol for Clustered Mobile Ad-Hoc Networks. - International Scholarly Research Network ISRN Communications and Networking Volume Article, ID 147925. 10 pages. doi:10. 5402/2011/147925, 2011.Search in Google Scholar

23. Yoon, J., M. Liu, B. Noble. Random Waypoint Considered Harmful. - In: INFOCOM: 22nd Annual Joint Conference of the IEEE Computer and Communications Societies, March 2003, 1312-1321.10.1109/INFCOM.2003.1208967Search in Google Scholar

24. Yoon, J., M. LIu, B. Noble. Sound Mobility Models. - In: Proceedings IEEE International Symposium on Mobile Ad-Hoc Networking and Computing, MobiHoc, September 2003, 205-216.Search in Google Scholar

25. Navidi, W., T. Camp. Stationary Distributions for the Random Waypoint Mobility Model. -IEEE Trans. Mobile Comput., Vol. 3, 2004, No 1, 99-108.10.1109/TMC.2004.1261820Search in Google Scholar

26. Bettstetter, C., H. Hartenstein, X. Perez-Costa. Stochastic Properties of the Random Waypoint Mobility Model. ACM/Kluwer Wireless Networks, 2004.10.1023/B:WINE.0000036458.88990.e5Search in Google Scholar

27. Boudec, J. On the Stationary Distribution and Location of Random Waypoint. - IEEE Trans. Mobile Comput., Vol. 4, July/August 2005, No 4, 404-406.10.1109/TMC.2005.59Search in Google Scholar

28. Boudec, J., M. Vojnovi'c. The Random Trip Model: Stability, Stationary Regime, and Perfect Simulation. - IEEE/ACM Trans. Networking, Vol. 14, December 2006, No 6, 1153-1166.10.1109/TNET.2006.886311Search in Google Scholar

29. Timo, R., K. Blackmore, L. Hanlen. Strong Stochastic Stability for MANET Mobility Models. - In: Tech. Rep. PA006222, NICTA, May 2007, 15th IEEE International Conference On Networks (ICON), 2007.10.1109/ICON.2007.4444054Search in Google Scholar

30. Kieffer, J., M. Rahe. Markov Channels are Asymptotically Mean Stationary. - SIAM Journal Mathematical Analysis (SIMA), Vol. 12, May 1981, No 3, 293-305.10.1137/0512027Search in Google Scholar

31. Gray, R., J. Kieffer. Asymptotically Mean Stationary Measures. - Journal of Annals of Probability, Vol. 8, October 1980, No 5, 962-973.10.1214/aop/1176994624Search in Google Scholar

32. Timo, R., K. Blackmore, L. Hanlen. Strong Stochastic Stability for MANET Mobility Models. - In: Tech. Rep. PA006222, NICTA, May 2007, 15th IEEE International Conference on Networks (ICON), 2007.10.1109/ICON.2007.4444054Search in Google Scholar

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