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Balanced Routes for Efficiency in the Information Centric Networks


Affiliations
1 Information Centric Network
2 Department of Engineering, Autonomic Networking Group
     

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Information Centric Network (ICN) is one of the alternative solutions for the next generation of the internet architecture, shifting form the end to end model to a content centric fashion. However, one key challenge that has not been addressed in the literature appropriately is that of load balancing. In this paper, we design a strategy for global load balancing in ICN and propose a balance-oriented content discovery and content routing algorithms. For proving our work efficiency, in addition to routing aspects we compare our method with differences caching methods. Extensive simulation results show that the proposed approach outperforms the conventional methods in terms of load balancing and enhance overall performance in ICN.

Keywords

Balanced Routes, Network Efficiency, Global Load Balancing, Content Discovery.
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  • Koponen. T and et al, "A Data-Oriented (and beyond) Network Architecture," SIGCOMM’07, Kyoto, Japan.., 2007.
  • Jacobson. V and et al, “Networking named content," CoNEXT '09, New York, NY, USA. ACM. 2009.
  • Dannewitz. C and et al, "Network of Information (NetInf) – An information-centric networking architecture," Computer Communications., 2014.
  • Zhang. G and et al, "Caching in information centric networking: A survey," Computer Networks, 2013.
  • Dan. A and et al, "An approximate analysis of the lru and fifo buffer replacement schemes," ACM SIGMETRICS, 1990.
  • Jelenkovic. P and et al, "Critical sizing of lru caches with dependent requests," J. Appl. Probab. 43 (4), 2006.
  • Laoutaris. N and et al, "Distributed selfish caching," IEEE Trans. Parallel Distrib, 2007.
  • Dán. G, "Cache-to-cache: could ISPs cooperate to decrease peer-to-peer content distribution costs?," IEEE Trans. Parallel Distrib, 2011.
  • Che. H and et al, "Hierarchical web caching systems: modelling, design and experimental results,," IEEE J. Sel. Areas Commun, 2002.
  • Laoutaris. N and et al, "The LCD interconnection of LRU caches and its analysis," Perform. Eval. 63 (7), 2006.
  • Heddaya. A and et al, "globally balanced fully distributed caching of hot published documents," Proc. IEEE Int’l. Conf. Distributed Computing Systems, 1997.
  • Zhang. L and et al, "Adaptive web caching," NLANR Web Cache Workshop, 1997.
  • R. E. J. a. e. al, "Approximate models for general cache networks," IEEE INFOCOM, 2010.
  • Rossi. D and et al, "Caching performance of content centric networks under multi-path routing," Technical Report, 2011.
  • Fricker. C and et al, "Impact of traffic mix on caching performance in a content-centric network," IEEE INFOCOM NOMEN Workshop, 2012.
  • Chai. W. K and et al, "Cache less for more in information-centric networks (extended version)," Computer Communications, 2013.
  • Saha. S and et al, "Efficient cache availability management in Information-Centric Networks," Computer Networks., 2015.
  • Saha. S and et al, "Cooperative Caching through Routing Control in Information-Centric Networks," Proceedings IEEE INFOCOM, 2013.
  • Rossi. D and et al, "On sizing CCN content stores by exploiting topological information," IEEE INFOCOM NOMEN Workshop, 2012.
  • Tyson. G and et al, "A trace-driven analysis of caching in content-centric networks," Proc. 21st Int’l. Conf. on Comp. Commun. Networks (ICCCN), Germany, 2012.
  • Liang Wang and et al, "Optimal chunking and partial caching in information-centric networks," Computer Communications, 2015.
  • Yuemei Xu and et al, "A novel cache size optimization scheme based on manifold learning in Content Centric Networking," Journal of Network and Computer Applications, 2014.
  • Cho. k and et al, "WAVE: popularity-based and collaborative in-network caching for content-oriented networks," IEEE INFOCOM NOMEN Workshop, 2012.
  • Wang and et al, "Advertising cached contents in the control plane: necessity and feasibility," IEEE INFOCOM NOMEN Workshop, 2012.
  • Bitan. B and et al, "Characteristic Time Routing in Information Centric Networks," Computer Networks, 2016.
  • G. Mauri and et al, "Up-to-date key retrieval for information centric networking," Computer Networks, 2017.
  • M. Tortelli and et al, "ICN software tools: Survey and cross-comparison," Simulation Modelling Practice and Theory, 2016.
  • S. Behzad, R. Fotohi, S. Jamali, "Improvement over the OLSR Routing Protocol in Mobile Ad Hoc Networks by Eliminating the Unnecessary Loops," International Journal of Information Technology and Computer Science (IJITCS), 2013.
  • S. Jamali, B. Safarzadeh, H. Alimohammadi, "SQR-AODV: A stable QoS-aware reliable on-demand distance vector routing protocol for mobile ad hoc networks," Scientific Research and essays, 2011.
  • R. Fotohi, S. Jamali, F. Sarkohaki, S. Behzad, "An Improvement over AODV Routing Protocol by Limiting Visited Hop Count," International Journal of Information Technology and Computer Science (IJITCS), 2013.
  • Psaras. I and et al, "Probabilistic in-network caching for information-centric networks," ICN '12, New York, NY, USA. ACM, 2012.
  • Saino. L and et al, "Icarus: a Caching Simulator for Information Centric Networking (ICN)," SIMUTools , Lisbon, Portugal, 2014.

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  • Balanced Routes for Efficiency in the Information Centric Networks

Abstract Views: 263  |  PDF Views: 1

Authors

M. Hoseini
Information Centric Network
Sh. Jamali
Department of Engineering, Autonomic Networking Group

Abstract


Information Centric Network (ICN) is one of the alternative solutions for the next generation of the internet architecture, shifting form the end to end model to a content centric fashion. However, one key challenge that has not been addressed in the literature appropriately is that of load balancing. In this paper, we design a strategy for global load balancing in ICN and propose a balance-oriented content discovery and content routing algorithms. For proving our work efficiency, in addition to routing aspects we compare our method with differences caching methods. Extensive simulation results show that the proposed approach outperforms the conventional methods in terms of load balancing and enhance overall performance in ICN.

Keywords


Balanced Routes, Network Efficiency, Global Load Balancing, Content Discovery.

References