Gregarious Characteristics Based Social Aware Routing in Mobile Ad-Hoc Network

Authors

  • K Vijayalakshmi Department of Computer Science, NGM College, Pollachi, India
  • R Manicka Chezian Department of Computer Science, NGM College, Pollachi, India

Keywords:

MANET, Routing protocol, Throughput and Delay, Social aware routing, social features

Abstract

Mobile ad hoc Network (MANET) is a type of wireless mobile network that does not guarantee continuous network connectivity. Intermittently connected network (ICMAN) refers to the network where no end-to-end paths exist from time to time. However in normal MANET, usually end-to-end paths exist, which is not the case in ICMAN. This concept is also similar to Delay Tolerant Network, since both require a ‘store-carry-forward’ style of message propagation. In such a network, people move around and contact each other based on their common interests. The routing hence becomes a process to resolve the social feature differences between a source and a destination. Present social friendship avoid selfness node based Routing in which temporally differentiated friendships are used to make the forwarding decisions of messages. In a typical sensor network, where small packets generated by sensors need to be periodically reported to the base station, end-to-end delay plays a more important role. This paper presents how to achieve the minimum end-to-end delay for regular traffic through routing.

References

Mayank Kumar and Tanya Singh, "A Survey on Security Issue in Mobile AD-HOC Network and Solutions", International Journal of Computer Sciences and Engineering, Volume-02, Issue-03, Page No (71-75), Mar -2014, E-ISSN: 2347-2693

Dipali D. Punwatkar and Kapil N. Hande, "A Review of Malicious Node Detection in Mobile Ad-hoc Networks", International Journal of Computer Sciences and Engineering, Volume-02, Issue-02, Page No (65-69), Feb -2014, E-ISSN: 2347-2693

K.Vijayalakshmi, Dr. R. Manicka Chezian “A Study On Security Consideration In MANET”. National Conference on Emerging Trends In Big Data Analytics, FEB, 2015, ISBN 97893 80800417.

J. Burgess, B. Gallagher, D. Jensen, and B. N. Levine, “MaxProp: Routing for vehicle-based disruption-tolerant networking,” in Proc. IEEE Conf. Compute. Commun., Barcelona, Spain, Apr. 2006, pp. 1–11.

P. Hui, A. Chaintreau, J. Scott, R. Gas’s, J. Crowcroft, and C. Diot, “Pocket switched networks and the consequences of human mobility in conference environments,” in Proc. ACM SIGCOMM Workshop Delay Tolerant Newt., Philadelphia, PA, USA, Aug. 2005, pp. 244–251.

D. Zhao, H. Ma, S. Tang, et al., “COUPON: A cooperative framework for building sensing maps in mobile opportunistic networks,” to appear in IEEE Trans. Parallel Diatribe. Syst., Feb. 2014.

P. Li, Y. Fang, J. Li, and X. Huang, “Smooth trade-offs between throughput and delay in mobile ad hoc networks,” IEEE Trans. Mobile Compute., vol. 11, no. 3, pp. 427–438, Mar. 2012.

D. Ciullo, V. Martina, M. Garrett, and E. Leonardo, “Impact of correlated mobility on delay-throughput performance in mobile ad hoc networks,” IEEE/ACM Trans. Newt., vol. 19, no. 6, pp. 1745–1758, Dec. 2011.

J. Zhang, X. Wang, X. Tian, Y. Wang, X. Chu, and Y. Cheng, “Optimal multicast capacity and delay tradeoffs in MANETs,” IEEE Trans. Mobile Compute., vol. 13, no. 5, pp. 1104–1117, May. 2014.

P. Li, Y. Fang, and J. Li, “Throughput, delay, and mobility in wireless ad hoc networks,” in Proc. IEEE Conf. Compute. Commun. San Diego, CA, USA, Mar. 2010, pp. 1–9.

N. Lu, T. H. Luan, M. Wang, X. Shen, and F. Bai, “Capacity and delay analysis for social-proximity urban vehicular networks,” in Proc. IEEE Conf. Compute. Commun. Orland, FL, USA, Mar. 2012, pp. 1476–1484.

X. Wang, W. Huang, S. Wang, J. Zhang, and C. Hu, “Delay and capacity tradeoffs analysis for motion cast,” IEEE/ACM Trans. Newt., vol. 19, no. 5, pp. 1354–1367, Oct. 2011.

M. J. Neely and E. Modiano, “Capacity and delay tradeoffs for ad hoc mobile networks,” IEEE Trans. Inf. Theory, vol. 51, no. 6, pp. 1917–1937, Jun. 2005.

S. Toumpis and A. J. Goldsmith, “Large wireless networks under fading, mobility, and delay constraints,” in Proc. IEEE Conf. Compute. Commun. Hong Kong, Mar. 2004, pp. 609–619.

Gangotri A Khiratkar and Swati S Mahajan, "Performance Analysis of Cluster Based Routing Protocol for Ad hoc Networks", International Journal of Computer Sciences and Engineering, Volume-02, Issue-04, Page No (141-143), Apr -2014, E-ISSN: 2347-2693

A. E. Gamal, J. Mammon, B. Prabhakar, and D. Shah, “Throughput-delay trade-off in wireless networks,” in Proc. IEEE Conf. Compute. Commun. Hong Kong, Mar. 2004, pp. 464–475.

N. Banal and Z. Liu, “Capacity, delay and mobility in wireless ad-hoc networks,” in Proc. IEEE Conf. Compute. Commun. San Francisco, CA, USA, Apr. 2003, vol. 2, pp. 1553–1563.

G. Sharma, R. R. Mazumdar, and N. B. Shroff, “Delay and capacity trade-offs in mobile ad hoc networks: A global perspective,” IEEE/ACM Trans. Newt., vol. 15, no. 5, pp. 981–992, Oct. 2007.

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Published

2025-11-10

How to Cite

[1]
K. Vijayalakshmi and R. Manicka Chezian, “Gregarious Characteristics Based Social Aware Routing in Mobile Ad-Hoc Network”, Int. J. Comp. Sci. Eng., vol. 3, no. 10, pp. 32–37, Nov. 2025.

Issue

Vol. 3 No. 10 (2015): IJCSE October Edition

Section

Research Article

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