Named Data Networking: Investigate of New Infrastructure for Future of Internet

Full Text (PDF, 516KB), PP.40-46

Views: 0 Downloads: 0

Author(s)

Hadis Rezaei 1,* Asad Vakili 1

1. Department of Computer Engineering, Saveh Branch, Islamic Azad University, Iran

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2017.01.05

Received: 22 Apr. 2016 / Revised: 10 Aug. 2016 / Accepted: 26 Oct. 2016 / Published: 8 Jan. 2017

Index Terms

Content-centric networking, the future Internet architecture, NDN, Data plan, scalability

Abstract

The Internet main goals are largely achieved, majority of using Internet, are data retrieval and access to services. Whereas host-to-host architecture is designed for applications. According to this problem that existing Internet is like a tree of physical equipment which is established to outflow in packets from each leaf to another leaf, despite having effective communication it has problems in scalability. Also the content-centric network can recognize large amount of information that is produced for first time and used after saving it. The change is using of host-to-host-centric to completely new architecture, that its design represents our understanding of strengths and limitations of architecture of the existing Internet. In NDN applications based data and Content-centric networks, packets are retrieved according to their names instead of their source and destination addresses. This performance is for scalability, security and ease access to data. This paper discussed methods of Internet architecture based data including TDRID, DONA, Netinf, CCN, and NDN.

Cite This Paper

Hadis Rezaei, Asad Vakili, "Named Data Networking: Investigate of New Infrastructure for Future of Internet", International Journal of Computer Network and Information Security(IJCNIS), Vol.9, No.1, pp.40-46, 2017. DOI:10.5815/ijcnis.2017.01.05

Reference

[1]C.Forecast, et al, Cisco visual networking index: Global mobile data traffic forecast update 2009-2014. Cisco Public Information, February, 2010.
[2]C. Kimberly, G. Miller, and K. Thompson. "The nature of the beast: Recent traffic measurements from an Internet backbone." Proceedings of INET. Vol. 98. 1998.
[3]S. McCreary, & K. C. Claffy,. Trends in wide area IP traffic patterns. (2000).
[4]V.Jacobson, Smetters, D. K., Thornton, J. D., Plass, M. F., Briggs, N. H., & Braynard, R. L. (2009, December). Networking named content. In Proceedings of the 5th international conference on Emerging networking experiments and technologies (pp. 1-12). ACM.
[5]L. Zhang, Deborah Estrin, Jeffrey Burke, Van Jacobson, James D. Thornton, Diana K. Smetters, Beichuan Zhang et al. "Named data networking (ndn) project." Relatório Técnico NDN-0001, Xerox Palo Alto Research Center-PARC (2010).
[6]ME. Mosko, JJ. Garcia-Luna-Aceves, inventors; Palo Alto Research Center Incorporated, assignee. Multi-publisher routing protocol for named data networks. United States patent US 9,363,179. 2016 Jun 7.
[7]A. Carzaniga, P. Michele, and L. Alexander. Wolf. "Content-based publish/subscribe networking and information-centric networking." In Proceedings of the ACM SIGCOMM workshop on Information-centric networking, pp. 56-61. ACM, 2011.
[8]Z. Ahmad, & M. Tahir,. Named Data Networking (NDN), (2013). new approach to future Internet architecture design: A survey. International Journal of Informatics and Communication Technology (IJ-ICT), 2(3), 155-165.
[9]D. R. Cheriton., & M. Gritter,. TRIAD: A new next-generation Internet architecture. (2000).
[10]S.Paul, J. Pan, & R. Jain. A survey of naming systems: classification and analysis of the current schemes using a new naming reference model. (2009). WUSTL Technical Report, available at http://www. cse. wustl. edu/~ jain/papers/naming. htm.0001, Xerox Palo Alto Research Center-PARC
[11]L.Wang, et al., OSPFN: An OSPF based routing protocol for Named Data Networking. University of Memphis and University of Arizona, Tech. Rep, 2012.
[12]M. Ain, et al., Conceptual architecture of PSIRP including subcomponent descriptions. PSIRP project, Deliverable D, 2008. 2: p. 2.
[13]C. Dannewitz, D. Kutscher, B. Ohlman, S. Farrell, B. , Ahlgren,., & H. Karl,. Network of Information (NetInf)–An information-centric networking architecture. (2013). Computer Communications, 36(7), 721-735.
[14]V. Jacobson, D. K .Smetters, J. D. Thornton., M. F. Plass, N. H. Briggs, & R. L. Braynard,. Networking named content. (2009, December). In Proceedings of the 5th international conference on Emerging networking experiments and technologies (pp. 1-12). ACM.
[15]C. Yi, A. Afanasyev, I. Moiseenko, L. Wang, B .Zhang, &, L. Zhang,. A case for stateful forwarding plane. (2013). Computer Communications, 36(7), 779-791.
[16]C. Yi, A. Afanasyev, L. Wang, B. Zhang, & L. Zhang,. Adaptive forwarding in named data networking. (2012). ACM SIGCOMM computer communication review, 42(3), 62-67.
[17]Y. Zhang, A. Afanasyev, J. Burke, & L. Zhang, A Survey of Mobility Support in Named Data Networking. In Proceedings of the third Workshop on Name-Oriented Mobility: Architecture, Algorithms and Applications (NOM’2016).
[18]J. Wang,. A survey of web caching schemes for the internet. (1999). ACM SIGCOMM Computer Communication Review, 29(5), 36-46.
[19]The psirp project. http//www.prisp.org/publication
[20]S. Deering and D. Cheriton. Muticast routing in internetworks and extended LANS. In Proceedings of SIGCOMM 1998.
[21]L.Zhang, S.Deering, D. Estrin, S. Shenker and D. Zappala. Rvsp: A new resource reservation protocol. In IEEE Network, September, 1993.
[22]L. Zhang, , D. Estrin, J. Burke, V. Jacobson, J. D. Thornton, D. K., Smetters, & T. Abdelzaher, Named data networking (ndn) project. (2010). Relatório Técnico NDN.
[23]A. MAJIDI, H. MIRVAZIRI. BDCC: Backpressure routing and dynamic prioritization for congestion control in WMSNs. I.J. Computer Network and Information Security; 2014, 5, 29-34.