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Node Selection in P2P Content Sharing Service in Mobile Cellular Networks with Reduction Bandwidth

Received: 11 May 2013     Published: 10 June 2013
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Abstract

The peer-to-peer service has entered the public limelight over the last few years. Several research projects are underway on peer-to-peer technologies, but no definitive conclusion is currently available. Comparing to traditional server-client technology on the internet, the P2P technology has capabilities to realize highly scalable, extensible and efficient distributed applications. At the same time mobile networks such as WAP, wireless LAN and Bluetooth have been developing at breakneck speed. Demand for using peer-to-peer applications over PDAs and cellular phones is increasing. The purpose of this study is to explore a mobile peer-to-peer network architecture where a variety of devices communications each other over a variety of networks. In this paper, we propose the architecture well-adapted to mobile devices and mobile network. In P2P file sharing systems over mobile cellular networks, the bottleneck of file transfer speed is usually the downlink bandwidth of the receiver rather than the uplink bandwidth of the senders. In this paper we consider the impact of downlink bandwidth limitation on file transfer speed and propose two novel peer selection algorithms named DBaT-B and DBaT-N, which are designed for two different cases of the requesting peer’s demand respectively. Our algorithms take the requesting peer’s downlink bandwidth as the target of the sum of the selected peers’ uplink bandwidth. To ensure load balance on cells, they will first choose a cell with the lowest traffic load before choosing each peer.

Published in American Journal of Networks and Communications (Volume 2, Issue 2)
DOI 10.11648/j.ajnc.20130202.13
Page(s) 40-46
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2013. Published by Science Publishing Group

Keywords

Network Security, P2P, Mobile Cellular Networks, Peer Selection, Load Balance, Reduction Bandwidth

References
[1] Y. Li, Y. C. Wu, J. Y. Zhang, et al., "A P2P Based Distributed Services Network for Next Generation Mobile Internet Communications," in Proc.WWW’09, pp. 1177-1178, 2009.
[2] L. Popova, T. Herpel, W. Gerstacker, "Cooperative mobile-to-mobile file dissemination in cellular networks within a unified radio interface," Computer Networks, vol. 52(6), pp. 1153-1165, 24 April 2008.
[3] H. Xie, R. Yang, A. Krishnamurthy, "P4P: Provider Portal for Applications," in Proc. ACM SIGCOMM’08, vol. 38, pp. 351-362, 2008.
[4] [4]W. Li, S. Z. Chen, T. Yu, "UTAPS: An Underlying Topology Aware Peer Selection Algorithm in BitTorrent," in Proc. IEEE AINA’08, pp. 539-545, 2008.
[5] T. S. Eugene Ng, et al., "Measurement-Based Optimization Techniques for Bandwidth-Demanding Peer-to-Peer Systems," in Proc. IEEE INFOCOM’03, pp. 539-545, Orlando, Florida, USA, 2003.
[6] BitTorrent,Inc. 2008. URL: http://www.bittorrent.com/
[7] B. Kosko, "Fuzzy Cognitive Maps," International Journal of Man-Machine Studies, vol. 24, pp. 65-75, 1986.
[8] X. Li, H. Ji, F. R. Yu, R. M. Zheng, "A FCM-Based Peer Grouping Scheme for Node Failure Recovery in Wireless P2P File Sharing," in Proc. IEEE ICC’09, pp. 1-5, 2009.
[9] OMNeT++, URL: http://www.omnetpp.org/2011
[10] NTT DoCoMo, Inc., "FOMA (Freedom Of Mobile multimedia Access)", http://foma.nttdocomo.co.jp/English/.
Cite This Article
  • APA Style

    S. Uvaraj, S. Suresh, E. Mohan. (2013). Node Selection in P2P Content Sharing Service in Mobile Cellular Networks with Reduction Bandwidth. American Journal of Networks and Communications, 2(2), 40-46. https://doi.org/10.11648/j.ajnc.20130202.13

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    ACS Style

    S. Uvaraj; S. Suresh; E. Mohan. Node Selection in P2P Content Sharing Service in Mobile Cellular Networks with Reduction Bandwidth. Am. J. Netw. Commun. 2013, 2(2), 40-46. doi: 10.11648/j.ajnc.20130202.13

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    AMA Style

    S. Uvaraj, S. Suresh, E. Mohan. Node Selection in P2P Content Sharing Service in Mobile Cellular Networks with Reduction Bandwidth. Am J Netw Commun. 2013;2(2):40-46. doi: 10.11648/j.ajnc.20130202.13

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  • @article{10.11648/j.ajnc.20130202.13,
      author = {S. Uvaraj and S. Suresh and E. Mohan},
      title = {Node Selection in P2P Content Sharing Service in Mobile Cellular Networks with Reduction Bandwidth},
      journal = {American Journal of Networks and Communications},
      volume = {2},
      number = {2},
      pages = {40-46},
      doi = {10.11648/j.ajnc.20130202.13},
      url = {https://doi.org/10.11648/j.ajnc.20130202.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajnc.20130202.13},
      abstract = {The peer-to-peer service has entered the public limelight over the last few years. Several research projects are underway on peer-to-peer technologies, but no definitive conclusion is currently available. Comparing to traditional server-client technology on the internet, the P2P technology has capabilities to realize highly scalable, extensible and efficient distributed applications. At the same time mobile networks such as WAP, wireless LAN and Bluetooth have been developing at breakneck speed. Demand for using peer-to-peer applications over PDAs and cellular phones is increasing. The purpose of this study is to explore a mobile peer-to-peer network architecture where a variety of devices communications each other over a variety of networks. In this paper, we propose the architecture well-adapted to mobile devices and mobile network. In P2P file sharing systems over mobile cellular networks, the bottleneck of file transfer speed is usually the downlink bandwidth of the receiver rather than the uplink bandwidth of the senders. In this paper we consider the impact of downlink bandwidth limitation on file transfer speed and propose two novel peer selection algorithms named DBaT-B and DBaT-N, which are designed for two different cases of the requesting peer’s demand respectively. Our algorithms take the requesting peer’s downlink bandwidth as the target of the sum of the selected peers’ uplink bandwidth. To ensure load balance on cells, they will first choose a cell with the lowest traffic load before choosing each peer.},
     year = {2013}
    }
    

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    JF  - American Journal of Networks and Communications
    JO  - American Journal of Networks and Communications
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    AB  - The peer-to-peer service has entered the public limelight over the last few years. Several research projects are underway on peer-to-peer technologies, but no definitive conclusion is currently available. Comparing to traditional server-client technology on the internet, the P2P technology has capabilities to realize highly scalable, extensible and efficient distributed applications. At the same time mobile networks such as WAP, wireless LAN and Bluetooth have been developing at breakneck speed. Demand for using peer-to-peer applications over PDAs and cellular phones is increasing. The purpose of this study is to explore a mobile peer-to-peer network architecture where a variety of devices communications each other over a variety of networks. In this paper, we propose the architecture well-adapted to mobile devices and mobile network. In P2P file sharing systems over mobile cellular networks, the bottleneck of file transfer speed is usually the downlink bandwidth of the receiver rather than the uplink bandwidth of the senders. In this paper we consider the impact of downlink bandwidth limitation on file transfer speed and propose two novel peer selection algorithms named DBaT-B and DBaT-N, which are designed for two different cases of the requesting peer’s demand respectively. Our algorithms take the requesting peer’s downlink bandwidth as the target of the sum of the selected peers’ uplink bandwidth. To ensure load balance on cells, they will first choose a cell with the lowest traffic load before choosing each peer.
    VL  - 2
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Author Information
  • Arulmigu Meenakshi Amman College of Engineering, Kanchipuram, India

  • Sri Venkateswara College of Engineering, Chennai, India

  • Pallavan College of Engineering, Kanchipuram, India

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