SEMANTIC INFORMATION-CENTRIC NETWORKING NAMING SCHEMA
UDC 316.776
Key words: routing, information-centric networks, semantic, geographical, address, publisher, subscriber request, IPv6.
For citation: Jaber, G. Semantic information-centric networking naming schema / G. Jaber, N. V. Patsei, F. Rahal // Труды БГТУ. Сер. 3, Физико-математические науки и информатика. - Минск : БГТУ, 2020. - № 1 (230). - С. 69-73.
Abstract
The article describes a new semantic-base naming schemer. This proposal takes into consideration the problem of data communication types that traverse the ICN. The legacy proposals in ICN have weaknesses in dealing with some type of communication. In order to deal with this problem, a threedimension addressing scheme was presented. It includes Geographical, Semantic, and Publisher ID addresses. The article discusses the process of forming a Semantic address on the basis of Network Universal Language with the construction of a semantic graph. We used the IPv6 extension header to define a new routing scheme that can work with a three-dimension address. In conclusion, the routing scheme and tables are briefly described. As a result, the proposed scheme will evolve the interests of Subscribers to a higher abstract level and will reduce the name resolution brokers and delays in some cases.
References
- Jaber G., Patsei N. V. Information Centric Networking for web-based content distribution and manipulation. Trudy BGTU [Proceedings of BSTU], series 3, Physics and Mathematics. Informatics, 2017, no. 2, pp. 88–91.
- Alzahrani B. A., Vassilakis V. G., Reed M. J. Key management in information centric networking. Int. J. Comput. Networks Commun., 2013, vol. 5, no. 6, pp. 153–156.
- Pepper R. Cisco Visual Networking Index (VNI) Global Mobile Data Traffic Forecast Update. Tech. Rep. Berlin, 2013, p. 245.
- Olsen L. J. Services for substance abuse-affected families: The Project Connect experience. Child Adolesc. Soc. Work J., 1995, vol. 12, no. 3, pp. 183–196.
- De Brito M. A. G., Galotto L., Sampaio L. P. Evaluation of the main MPPT techniques for photovoltaic applications. IEEE Trans. Ind. Electron., 2013, vol. 60, no. 3, pp. 1156–1167.
- Lee J.-C., Lim W.-S., Jung H.-Y. Scalable domain-based routing scheme for ICN. Information and Communication Technology Convergence (ICTC): International Conference. Jeju, 2014, pp. 770–774.
- Navrotsky Y., Patsei N. Cashing Control and Optimization in Information-Content Networks. Open Conference of Electrical, Electronic and Information Sciences (eStream): Proceedings of the Conference. Vilnius, 2019, pp. 70–74.
- Jaber G., Patsei N., Rahal F. Different Naming in Information-Centric Networks (ICN). Scholars Journal of Engineering and Technology, 2019, no. 7 (8), pp. 235–237.
- UNL web community portal. Available at: http://www.unlweb.net/unlweb/ (accessed 18.11.2019).
- UNL portal. Available at: http://www.undl.org/http://www.unlweb.net/unlweb/ (accessed 18.11.2019).
- Uchida H., Zhu M. The universal networking language beyond machine translation. International Symposium on Language in Cyberspace. Seoul, 2001, pp. 26–27.
- Alansary S., Nagi M., Adly N. The universal networking language in action in English-Arabic machine translation. Proceedings of 9th Egyptian Society of Language Engineering Conference on Language Engineering (ESOLEC 2009). Cairo, 2009, pp. 23–24.
- Hinden R., Deering S. IP Version 6 Addressing Architecture. Network Working Group. DOI: 10.17487/RFC4291. Available at: https://tools.ietf.org/html/rfc4291 (accessed 18.11.2019).