Effectiveness analysis of resource usage of multiservice information and telecommunication network

Authors

  • Виктор Васильевич Косенко Kharkіv Scientific-Research Institute of Mechanical Engineering Technology, 30 Kryvokonivska str., Kharkіv, Ukraine, 61016, Ukraine https://orcid.org/0000-0002-4905-8508
  • Дмитрий Николаевич Бугас O. M. Beketov National University of Urban Economy, 12, Revolutsii str, Kharkіv, Ukraine, 61016, Ukraine https://orcid.org/0000-0002-5269-4732

DOI:

https://doi.org/10.15587/2312-8372.2015.51710

Keywords:

information and telecommunication network, adaptive management, efficiency criteria

Abstract

The article is devoted to the task of providing the requirements for the rapid exchange of information in the information and telecommunication networks. It is conducted an analysis of the factors determining the efficiency of information and telecommunication network and the use of network resources and methods and mathematical models for control of the telecommunication networks. It is shown that modern methods of data flow control, though, provide load balancing of network resources, but does not take into account some of the factors causing the fluctuation nature of network traffic. The basic methods of controlling the distribution of traffic on the network and used mathematical models used are considered. It is shown that the efficiency of the use of network resources can be enhanced by the development and application of adaptive management. It is determined multiparameter function evaluating the performance of the network protocol. It is given the criterion of selection of the most efficient network protocol that takes into account the critical and non-critical parameters of the network, as well as the processing of information messages. As a generalized indicator of efficiency of the total processing time are selected informational messages at a fixed time interval. The mathematical optimization problem of choosing the most efficient network protocol is formulated. The results can be used in the development of management techniques for specialized multi-information telecommunication networks.

Author Biographies

Виктор Васильевич Косенко, Kharkіv Scientific-Research Institute of Mechanical Engineering Technology, 30 Kryvokonivska str., Kharkіv, Ukraine, 61016

Candidate of Technical Sciences, Associate Professor

Дмитрий Николаевич Бугас, O. M. Beketov National University of Urban Economy, 12, Revolutsii str, Kharkіv, Ukraine, 61016

Candidate of Technical Sciences, Senior Researcher

Department of Project Management in the urban economy and construction

References

  1. Huang, Q., Ko, K.-T., Iversen, V. B. (2011, January). A new convolution algorithm for loss probability analysis in multiservice networks. Performance Evaluation, Vol. 68, № 1, 76–87. doi:10.1016/j.peva.2010.09.007
  2. Wu, Y., Williamson, C. (2005, October). Impacts of data call characteristics on multi-service CDMA system capacity. Performance Evaluation, Vol. 62, № 1-4, 83–99. doi:10.1016/j.peva.2005.07.011
  3. Rodrigues, C., Lima, S. R., Álvarez Sabucedo, L. M., Carvalho, P. (2012, July). An ontology for managing network services quality. Expert Systems with Applications, Vol. 39, № 9, 7938–7946. doi:10.1016/j.eswa.2012.01.106
  4. De Assis, M. V. O., Rodrigues, J. J. P. C., Proença, M. L., Jr. (2014, September). A seven-dimensional flow analysis to help autonomous network management. Information Sciences, Vol. 278, 900–913. doi:10.1016/j.ins.2014.03.102
  5. Long, Q. (2015, April). Three-dimensional-flow model of agent-based computational experiment for complex supply network evolution. Expert Systems with Applications, Vol. 42, № 5, 2525–2537. doi:10.1016/j.eswa.2014.10.036
  6. Rácz, S., Gerő, B. P., Fodor, G. (2002, September). Flow level performance analysis of a multi-service system supporting elastic and adaptive services. Performance Evaluation, Vol. 49, № 1-4, 451–469. doi:10.1016/s0166-5316(02)00115-3
  7. Olifer, V. G., Olifer, N. A. (2008). Komp'iuternye seti: printsipy, tehnologii, protokoly. Ed. 3. St. Petersburg: Piter, 958.
  8. Ershov, V. A., Kuznetsov, N. A. (2003). Mul'tiservisnye telekommunikatsionnye seti. Moscow: MGTU im. N. E. Baumana, 432.
  9. Ivanov, I. A., Leohin, Yu. L. (2006). Intellektual'noe upravlenie komp'iuternymi setiami. Avtomatizatsiia i sovremennye tehnologii, 12, 26–31.
  10. Poshtarenko, V. M., Andreev, A. Yu., Amal' Mersni. (2013). Obespechenie kachestva obsluzhivaniia na kriticheskih uchastkah mul'tiservisnoi seti. Visnyk NTU «KhPI». Seriia: Tekhnika ta elektrofizyka vysokykh napruh, 60 (1033), 94–100.
  11. Galkin, V. A. (2003). Telekommunikatsii i seti. Moscow: MGTU im. N. E. Baumana, 608.
  12. Pol'shchikov, K. A., Odarushchenko, O. N. (2008). Metod otsenki effektivnosti upravleniia informatsionnymi potokami v telekommunikatsionnoi seti spetsial'nogo naznacheniia. Radioelektronni i kompiuterni systemy, 6 (33), 269–276.
  13. Sultanov, A. H., Sultanov, R. R. (2009). Metod otsenki pokazatelei kachestva obsluzhivaniia ierarhicheskih mul'tiservisnyh setei. Vestnik UGATU, Vol. 12, № 1 (30), 175–181.
  14. Lagutin, V. S., Kostrov, V. O. (2003). Otsenka harakteristik propusknoi sposobnosti mul'tiservisnyh paketnyh setei pri realizatsii tehnologii razdeleniia tipov nagruzki. Elektrosviaz', 3, 28–32.
  15. Shamrai, N. B. (2008). Reshenie zadach transportnogo ravnovesiia s dekompozitsiei po ogranicheniiam. Trudy vserossiiskoi konferentsii "Ravnovesnye modeli v ekonomike i energetike". Irkutsk: ISEM SO RAN, 618–624.
  16. Shvetsov, V. I. (2009). Algoritmy raspredeleniia transportnyh potokov. Avtomatika i telemehanika, 10, 148–157.
  17. Vishnevskii, V. M. (2003). Teoreticheskie osnovy proektirovaniia komp'iuternyh setei. Moscow: Tehnosfera, 512.
  18. Lastovchenko, M. M., Rusetskii, V. E., Yaroshenko, V. N. (2006). Sistemnyi analiz effektivnosti funktsionirovaniia shirokopolosnoi transportnoi platformy intellektual'nyh setei. Matematychni mashyny i systemy, 1, 28–39.

Published

2015-09-22

How to Cite

Косенко, В. В., & Бугас, Д. Н. (2015). Effectiveness analysis of resource usage of multiservice information and telecommunication network. Technology Audit and Production Reserves, 5(2(25), 19–23. https://doi.org/10.15587/2312-8372.2015.51710

Issue

Section

Information Technologies: Original Research