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Research of token ring network options in automation system of marshalling yard

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the automation systems of sorting process the use of computer networks of Ethernet technology is possible. But its traditional drawback is a probabilistic nature of the network access, which does not guarantee the information transmission in specified time intervals. However, there are other technologies that are free from this defect, for example, the Token Ring technology. A methodology, for determination of the network parameters in the automation system on marshalling yard at the restriction of the average time for application waiting in the queue at the station network has worked out. Using the token method of access to the ring, the state diagram of network stations was compiled. This is the basis for simulation model of the Token Ring network, which was developed in the GPSS environment. As a result of simulation the dependencies of the maximum queue length at the network station on the frame length, intensity, and distribution of time for application receipt from the station were obtained.
Czasopismo
Rocznik
Strony
149--158
Opis fizyczny
Bibliogr. 14 poz.
Twórcy
  • Dnipropetrovsk National University of Railway Transport Lazaryan 2, 49010, Dnipro, Ukraine
autor
  • Dnipropetrovsk National University of Railway Transport Lazaryan 2, 49010, Dnipro, Ukraine
Bibliografia
  • 1. Шафит, Е.М. & Жуковицкий, И.В. Современные принципы построения АСУ сортировочных станций. Залізничний транспорт України. 2000. No. 3. P. 22–26. [In Russian: Shafit, E. & Zhukovyts’kyy, I. Modern principles of automation of marshalling yards. Railway Transport of Ukraine].
  • 2. Пахомова, В.М. Можливості розвитку комп’ютерних мереж в автоматизованих системах залізничного транспорту. Дніпропетровськ: Дніпропетровський національний університет залізничного транспорту. 2015. 203 p. [In Ukrainian: Pakhomova, V. Development possibilities of computer networks in the automated systems of railway transport. Dnipropetrovsk: Dnipropetrovsk National University of Railway Transport].
  • 3. He Deqiang, etc. Delay analysis of train onboard detection sensor network. Theoretical and Applied Information Technology. 2013. P. 1185-1190.
  • 4. Zhou, J. & etc. Reliability analysis of switched ethernet based train communication network. Chemical and Pharmaceutical Research. 2013. No. 5(9). P. 584-591.
  • 5. Kawasaki J. Outline of INTEROS development. East Japan Railway Culture Foundation. 2014. No. 19. P. 40-45.
  • 6. Tarek, K. Refaat. Ethernet Implementation of Fault Tolerant Train Network for Entertainment and Mixed Control Traffic. Transportation Technologies. 2013. No 3. P. 105-111.
  • 7. Новиков, Ю.В. Локальные сети: архитектура, алгоритмы, проектирование. Москва: ЭКОМ. 2000. 312 p. [In Russian: Novikov, Yu. Local networks: architecture, algorithms, design. Moskow: ECOM].
  • 8. Олифер, В.Г. Компьютерные сети. Принципы, технологии, протоколы. Санкт-Петербург: Питер. 2010. 944 p. [In Russian: Olifer, V. Computer networks. Principles, technologies, protocols. St. Petersburg: Piter].
  • 9. Zhang, L. VirtualClock: A new trac control algorithm for packet switching networks. In: Pmc. ACM SIGCOMM. Sept. 1990. P. 19-29.
  • 10.Rexf'ord, J. Hardware+efficient fair queueing architectures for high-speed networks. In: Pm. IEEE INFOCOM. 1996. P. 638-646.
  • 11.Jain, R. Performance Analysis of FDDI, Token Ring Networks: Effects of Parameters and Guidelines for Setting TTRT. SIGCOMM’90. 1990. P. 264-275.
  • 12.ANSI/IEEE Std 802.5-1998E Information technology – Telecommunications and information exchange between systems – Local and metropolitan area networks – Specific requirements – Part 5: Token ring access method and Physical Layer specifications. (Revision of ANSI/IEEE 802.5-1995). Adopted by ISO/IEC and redesignated as ISO/IEC 8802-5:1995.
  • 13. Пахомова, В.Н. & Прудко, А.А. Анализ локальных вычислительных сетей сортировочных станций на основе имитационной модели TOKEN RING. Збірник наукових праць Дніпр. держ. техн. ун-ту залізн. тр.-ту. 2002. Vol 12. P. 131–136 [In Russian: Pakhomova, V. & Prudko, A. Analysis of the Local Area Networks of the marshalling yards based on the simulation model TOKEN RING. Bulletin of the Dnipropetrovsk State Technical University of Railway Transport].
  • 14.Пахомова, В.Н. & Прудко, А.А. О возможности использования технологии TOKEN RING в ЛВС на сортировочной горке. Інформ.-керуючі системи на залізничн. транспорті. 2004. No.6. P. 38–43. [In Russian: Pakhomova, V. & Prudko, А. On the use possibility of the TOKEN RING in the Local Area Network at the marshalling yard. Information and control systems at the railway transport].
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-18b8e37d-4fdf-4b39-870e-03fe75c4b55f
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