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A trust value-based scheme for efficient contents sharing over mobile P2P networks

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Abstract

Along with the arrival of the Internet of Things, effective network traffic control schemes are in a great need, since network traffic becomes overloaded due to the introduction of a variety of services utilizing multimedia contents. In this paper, we propose the Trust value-based Local Mobile P2P (TLoMP) scheme, which is suitable for mobile P2P contents sharing based on trust values to reduce contents server traffic. After constructing a contents-sharing group based on trust values among mobile nodes which request identical multimedia contents from its server, this scheme attempts to reduce contents server traffic to improve the quality of services through contents sharing. We demonstrated that the TLoMP scheme reduces the contents server traffic more efficiently in terms of the total server bandwidth usage, comparing with the cluster-based protocol, through simulation. Especially, our scheme showed more improved performance than the existing protocol when mobile nodes are clustered more densely.

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References

  1. Chang S-Y, Lai C-F, Huang Y-M (2012) Dynamic adjustable multimedia streaming service architecture over cloud computing. Comput Commun 35:1798–1808

  2. Ham K-G, Kim K-Y, Choi S-G (2011) A functional architecture for user-centric multimedia service on mobile station. In: Proceedings of advanced communication technology (ICACT), vol 15. IEEE, Seoul

  3. Benevenuto F, Pereira A, Rodrigues T, Almeida V, Almeida J, Gonçalves M (2010) Characterization and analysis of user profiles in online video sharing systems. J Inf Data Manag 1(2):261–275

  4. Chang B, Dai L, Cui Y, Xue Y (2008) On feasibility of P2P on-demand streaming via empirical VoD user behavior analysis. In: Proceedings of distributed computing systems workshops, pp 7–11

  5. Djatmiko M, Boreli R, Seneviratne A, Ries S (2011) Trust-based content distribution for mobile Ad Hoc networks. In: Proceedings of MASCOTS, pp 433–436

  6. Yoon H, Kim JW, Tan F, Hsieh R (2008) On-demand video streaming in mobile opportunistic networks. In: Proceedings of pervasive computing and communications, PerCom 2008, sixth annual IEEE international conference on IEEE, pp 80–89

  7. Iyer T, Hsieh R, Rizvandi NB, Varghese B, Boreli R (2012) Mobile P2P trusted on-demand video streaming. In: Proceedings of local computer network conference (LCN 2011), pp 45–47

  8. Jia J, Meng C (2009) A cluster-based peer-to-peer file sharing protocol for mobile Ad Hoc networks. In: Proceedings of international symposium on computer network and multimedia technology, p 18–20

  9. Chen K, Shen H, Zhang H (2014) Leveraging social networks for P2P content-based file sharing in disconnected MANETs. Mobile Comput 13:235–249

    Article  Google Scholar 

  10. Liu L, Jing Y, Zhang Y, Xia B (2013) A survey on P2P file sharing algorithms over MANETs. In: Proceedings of consumer electronics times, pp 109–115

  11. Karthikeyan V, Vinod A, Jeyakumar P (2014) An energy efficient neighbor node discovery method for wireless sensor networks. http://arxiv.org/abs/1402.3655

  12. Dyo V, Mascolo C (2008) Efficient node discovery in mobile wireless sensor networks. Lect Notes Comput Sci 5067:478–485

    Google Scholar 

  13. Humayun B (2011) Survey of routing protocols for mobile Ad-Hoc network. Int J Inf Commun Technol Res 1(6):258–269

  14. Boukerche Turgut B, Aydin N, Ahmad MZ, Boloni L, Turgut D (2011) Routing protocols in Ad Hoc networks: a survey. Comput Netw 55:3032–3080

  15. Lee HS, Lim KH, Kim SJ (2013) A configuration scheme for connectivity-aware mobile P2P networks for efficient mobile cloud-based video streaming services. Clust Comput 16:745–756

    Article  Google Scholar 

  16. Li F, Wu J (2009) MOPS: providing content-based service in disruption-tolerant networks. In: Proceedings of 29th IEEE international conference on ICDCS ’09, pp 526–533

  17. Qureshi B, Min G, Kouvatsos D, Ilyas M (2010) An adaptive content sharing protocol for P2P mobile social networks. In: Proceedings of advanced information networking and applications workshops (WAINA), pp 413–418

  18. Euler–Mascheroni constant. http://mathworld.wolfram.com/Euler-MascheroniConstant.html

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Acknowledgments

This research was supported by the Chung-Ang University Research Scholarship Grants in 2013 and the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIP)(No. NRF-2013R1A2A2A01016448).

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Authors and Affiliations

  1. School of Computer Science and Engineering, Chung-Ang University, Seoul, Korea

    Sejin Kim, Hyerim Kim & Sung Jo Kim

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  1. Sejin Kim
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  2. Hyerim Kim
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  3. Sung Jo Kim
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Correspondence to Sung Jo Kim.

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Kim, S., Kim, H. & Kim, S.J. A trust value-based scheme for efficient contents sharing over mobile P2P networks. J Supercomput 71, 2177–2189 (2015). https://doi.org/10.1007/s11227-015-1393-0

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  • DOI: https://doi.org/10.1007/s11227-015-1393-0

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