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Simulation Model of GPRS Channels Operation as a Part of the Railway Traffic Coordination System

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper analyzes the prospects for the formation and implementation of digital data transmission technologies on railways of Kazakhstan, taking into account the potential for the development of high-speed railway transport (HSRWT), as well as new approaches for solving the development problems of advanced automated dispatch control systems (ADCS). It was shown that the solution of these problems is possible by automatization of the train traffic coordination based on the use of the potential of the GPRS data transmission technology. The work further developed models and algorithms used in ADCS of the railway transport. There has been carried out the formalization of the tasks of navigation data transmission for ADCS and for the subsystems of the railway rolling stock movement coordination, including HSRWT using GPRS data transmission technology. Also, the article describes a modernized algorithm for simulation of the GPRS channels operation in ADCS. The proposed algorithm differs from the existing ones by the ability to make predictive estimates for determination of the railway rolling stock location. Also, the developed algorithm provides opportunities for coordination of the trains movement, taking into account the optimization of the GPRS resources use.
Rocznik
Strony
485--490
Opis fizyczny
Bibliogr. 17 poz., rys., wykr., fot.
Twórcy
  • Kazakh University Ways of Communications, Almaty, Kazakhstan
  • National University of Life and Environmental Sciences of Ukraine, Kiev, Ukraine
  • Kazakh University Ways of Communications, Almaty, Kazakhstan
  • Kazakh University Ways of Communications, Almaty, Kazakhstan
  • Kazakh University Ways of Communications, Almaty, Kazakhstan
Bibliografia
  • [1] Skalozub V.V., Soloviev V.P., Zhukovitsky I.V., & Goncharov K.V. (2013). Intelligent railway transport systems (fundamentals of innovative technologies): manual.
  • [2] Gapanovich V.., Rozenberg I.N. The main directions of intellectual railway transport development // Railway transport 2011, 4. p. 5-11.
  • [3] Mozharova V.V. Transport in Kazakhstan: current situation, problems and development prospects // Almaty: KISR under the President of the Republic of Kazakhstan. 2011. p. 216-217.
  • [4] Arkatov D.B. Models of decomposition and parallel processing of data from an automated system for mobile units movement coordination // Problems and Information Technologies. 2012 , 2. p. 22-28.
  • [5] Smagulova Sh.A. and others. Development and control of the transport industry in Kazakhstan // Strategic and project control. 2016, p. 247-256.
  • [6] Borushko Yu.M. ACS Navigation and Control based on satellite technologies for railway transport / Yu.M. Borushko, S.B. Semenov, N.N. Titov // Satellite technologies and digital communication systems in the railways service. - M .: RDII, 2007, P.33-37.
  • [7] Agafonov, D.V. (2017). Analysis of the feasibility of the railway infrastructure of high-speed highways in the Russian Federation. Internet journal Naukovedenie, 9 (1 (38)).
  • [8] Levin B.A. Innovatika in the scientific provision of transport security // World of Transport. 2016, 1. p. 38-41.
  • [9] Davidsson P. et al. An analysis of agent-based approaches to transport logistics //Transportation Research part C: emerging technologies. 2005. 13. 4 . 255-271.
  • [10] Fay A. A fuzzy knowledge-based system for railway traffic control //Engineering Applications of Artificial Intelligence. - 2000. 13. 6. 719-729.
  • [11] Ning B. et al. Intelligent railway systems in China //IEEE Intelligent Systems. 2006. 21. 5. 80-83.
  • [12] Ning B. et al. An introduction to parallel control and management for high-speed railway systems //IEEE Transactions on Intelligent Transportation Systems. - 2011. 12. 4. 1473-1483.
  • [13] Jianjun Z. L. H. S. M., Yixiang Y. Network Hierarchy Parallel Algorithm of Automatic Train Scheduling [J] //Journal of the china railway society. 1998. 5.
  • [14] Fay A. A fuzzy knowledge-based system for railway traffic control //Engineering Applications of Artificial Intelligence. - 2000. 13. 6. 719-729.
  • [15] Jianying W. Railway Traffic Dispatching Control Simulation System [J] //China Railway Science. 2007. 5. 024.
  • [16] Coll D. C. et al. The communications system architecture of the North American advanced train control system //IEEE Transactions on Vehicular Technology. 1990. 39. 3. 244-255.
  • [17] Goldstein B.S. Communication networks / B.S. Goldstein, N.A. Sokolov - SPb: BHV-Petersburg, 2010 - p. 400.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2d232e01-2f4e-4037-a955-65376ac0c614
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