OSI-INTERLAYER CONSISTENCY PROBLEM

Authors

  • Yurii V. Kravchenko Taras Shevchenko National University of Kyiv, Ukraine
  • Olena V. Starkova Taras Shevchenko National University of Kyiv,
  • Roman A. Mykolaichuk National Defence University of Ukraine named after Ivan Chernyakhovsky,
  • Serhii A. Mykus National Defence University of Ukraine named after Ivan Chernyakhovsky,

DOI:

https://doi.org/10.33099/2311-7249/2018-31-1-47-52

Keywords:

OSI, TCP/IP, network protocol, Internet-technology, OSI-interlayer consistency, TCP-session

Abstract

The article introduces the OSI-interlayer consistency problem, gives the possible solution through the use of developed theoretical foundations the OSI-interlayer protocol consistency. It is known that the formation and organization of data transfer subject to TCP/IP protocol stack, which is the most popular and common in today's networks. In fact, TCP/IP – a systematic set of protocols, is divided into four levels, which are correlated to the OSI reference model. Analysis of the existing scientific approaches to solve the network management problems led to the conclusion about need of their further development and identify contradictory situation, which became the basis of new actual problem. Namely, there are contradictions between the requirements for ICS:between the requirement to improve the effectiveness of ICS, which requires additional costs and the requirement of reducing the cost of the ICS building&between the requirement to improve the effectiveness of ICS, which requires protocols development, and requirement to reduce the protocols cost. The basic hypothesis is advanced that the effective maintenance of interlayer coordination is possible through the use of the proposed technology of permanent horizontal communication in the OSI model layer.

References

1. ITU-T Rec. Y.100 «General overview of the Global Information Infrastructure standards development». – 1998. – 19 p.

2. ITU-T Rec. Y.110 «Global Information Infrastructure principles and framework architecture». – 1998. – 47 p.

3. TCP/IP Illustrated Vols 1-3. W. Richard Stevens.

4. Internetworking with TCP/IP Vols 1-3. Douglas Comer.

5. Wendell Odom CCNA Routing and Switching 200-125. Official Cert Guide Library. Cisco Press, 2016. – 1600 p.

6. Chen-Khong T. QoS-based routing algorithm for PNNI ATM networks / Chen-Khong T., Jianning M., Lawrence W. C. // Comput. Commun. – 2002. – Vol.25, № 7. – pp. 714-729.

7. Кравченко Ю.В. Проблема обеспечения функциональной устойчивости систем информационной безопасности. / Кравченко Ю.В., Виалкова В.И. // Материалы 13-й международной конференции «Современные проблемы радиоинженерии, телекомуникаций и компьютерных наук» (TCSET'2016) Львов, Украина, 23 – 26 февраля, 2016. - С. 526 - 530.

8. Кравченко Ю.В. Функциональная устойчивость информационных и телекоммуникационных систем / Кравченко Ю.В.. Лещенко О.А., Мыкусь С.А. // Восточноевропейский научный журнал, N.2 (6). - 2016. - С.47-52.

9. Kravchenko Yu.V. Optimization of Parameters at SDN Technologie Networks / Yu.Kravchenko, Barabash, V.Mukhin, Y. Kornaga, O. Leshchenko // International Journal of Intelligent Systems and Applications. - Vol. 9. - № 9. - Hong Kong: MECS Publisher, 2017. - P. 1 - 9.

10. W. Stevens TCP Slow Start, Congestion Avoidance, Fast Retransmit, and Fast Recovery Algorithms. RFC2001 / W. Stevens. – Jan. 1997. – 6 p.

11. S. Floyd, V. Jacobson Random Early Detection Gateways for Congestion Avoidance / S. Floyd, V. Jacobson // IEEE/ACM Transactions on Networking. – 1993. – Vol. 1, No. 4. – pp. 397 – 413.

12. G.F.Ali Ahammed Analyzing the Performance of Active Queue Management Algorithms / G.F.Ali Ahammed, Reshma Banu // International journal of Computer Networks & Communications (IJCNC). – 2010. – Vol.2, No.2. – pp. 36 – 55.

13. Старкова Е.В., Приоритезация сетевого трафика для усовершенствования качества VoIP трафика / Старкова Е.В., Герасименко К.В., Мелехова М.А. // Третья международная научно-практическая конференция «Проблемы телекомуникаций. Наука и технологии» (PICS&T-2016), Харьков, Украина, 4-6 октября, 2016. – С. 41-43.

14. Lemeshko O.V. Analysis of Bifurcational Properties of the Mechanism RED / Lemeshko O.V., Starkova O.V., Merkulov // Modern Problems of Radio Engineering, Telecommunications and Computer Science, feb. 23, 2008: Proceedings of the international Conference TCSET’2008. – Lviv-Slavsko: Publishing House of Lviv Polytechnic, 2008. – pp. 513 – 514.

15. Старкова О.В. Динамическая модель TCP-сессии для управления длиной запроса с использованием RED механизма / O.В. Старкова // Материалы 10-й международной конференции «Современные проблемы радиоинженерии, телекомуникаций и компьютерных наук» (TCSET'2010) Львов, Украина, 23 – 27 февраля, 2010. - С. 224-225.

16. Starkova O.V. Estimation Model of Functional Stability of the Local Computer Network / O.V. Starkova // Scholars Journal of Engineering and Technology (SJET). – 2017. № 5(2). – pp. 44-48.

17. Кравченко Ю.В., Старкова О.В., Герасименко К.В., Харченок А.М. Особенности имплементации IPv6 в Украине / Четвертая международная научно-практическая конференция «Проблемы телекомуникаций. Наука и технологии» (PICS&T-2017), Харьков, Украина, 10-13 октября, 2017. – С. 32-34.

18. Кравченко Ю.В., Старкова О.В., Герасименко К.В., Харченок А.М. / Анализ технологий имплементации умного дома // Четвертая международная научно-практическая конференция «Проблемы телекомуникаций. Наука и технологии» (PICS&T-2017), Харьков, Украина, 10-13 октября, 2017. – С. 68-70.

Downloads

Published

2018-03-01

Issue

Section

Theoretical Foundations of Information Technologies Creation and Using