Russian University of Transport (MIIT) ("Automation, Remote Control and Communication on Railway Transport" Department, Professor)
«Scientific Research and Design Institute «Transport and Construction Safety» LLC (General Director Deputy on Scientific Research Work)
Tashkent State Transport University ("Automation and Remote Control" Department, Professor)
Russian Federation
Russian Federation
Russian Federation
Russian Federation
Russian Federation
UDK 656.34 эстакадных, подземных, пригородных, городских дорог и трамваев
To perfect processes of planning, organization and management of transportation process in the undergrounds, automatic complex systems of train traffic are developed. Such systems are embodied on the acting infrastructure during its improvement and the rework of morally and physically outdated automation objects and cope with already industry-introduced systems of automatic planning, organization and management. The usage of complex systems of train traffic management in the undergrounds allows to rise essentially the quality and efficiency of transportation process, especially, at extraordinary situation appearance. In the presented article, the scenarios of switch of acting devices are developed onto the modern automation equipment of train traffic management on metro lines. Technical requirements to parts are presented as well as intrinsic specificities for this or that switch scenario of the equipment are outlined. The submitted results may appear useful at practical realization of complex systems of the underground train traffic control.
automation and remote control of train traffic in the undergrounds, modernization, switch of automation and remote control equipment of train traffic
1. Kompaniya Thales: tri kontrakta na postavku sistemy CBTC v Kitay, Respubliku Koreya i Turciyu // Zheleznye dorogi mira. - 2020. - №7. - S. 17.
2. Razvertyvanie sistemy CBTC na seti metropolitena N'yu-Yorka // Zheleznye dorogi mira. - 2020. - №7. - S. 68-73.
3. Boston: masshtabnaya rekonstrukciya rel'sovogo transporta // Zheleznye dorogi mira. - 2020. - №5. - S. 29-35.
4. Iskakov T.A., Safronov A.I., Sidorenko V.G., Chzho M.A. Podhody k ocenke kachestva planirovaniya i upravleniya dvizheniem passazhirskih poezdov metropolitena // Avtomatika na transporte. - 2020. - Tom 6. - №1. - S. 38-63. - DOI:https://doi.org/10.20295/2412-9186-2020-6-1-28-63.
5. Baranov L.A. Ogranicheniya na upravlenie v avtomatizirovannyh sistemah planirovaniya i upravleniya dvizheniem poezdov metropolitena // Avtomatika na transporte. - 2016. - T. 2. - №3. - S. 319-330.
6. Lavrik V.V. Elektricheskaya centralizaciya strelok i signalov metropolitenov. - M.: Transport, 1984, 239 c.
7. Baranov L.A., Golovicher Ya.M., Erofeev E.V., Maksimov V.M. Mikroprocessornye sistemy avtovedeniya elektropodvizhnogo sostava. - Pod red. L. A. Baranova. - M.: Transport, 1990, 272 s.
8. Nikitin A.B., Korolev M.Yu. Realizaciya kompleksnoy avtomatizirovannoy sistemy dispetcherskogo upravleniya liniey metropolitena // Nauka i transport. Metropoliteny buduschego. - 2010. - S. 39-41.
9. Nikul'chikov P.M. Istoriya, sostoyanie i perspektivy razvitiya sistem avtomaticheskogo upravleniya poezdami metropolitena // Avtomatika na transporte. - 2016. - Tom 2. - №3. - S. 456-473.
10. Su S., Tang T., Li Z., Gao Z. Optimization of Multitrain Operations in a Subway System // IEEE Transactions on Intelligent Transportation Systems. - 2014. - Vol. 15. - Issue 2. - Pp. 673-684. - DOI:https://doi.org/10.1109/TITS.2013.2285737.
11. Xiong G., Shen D., Dong X., Hu B., Fan D., Zhu F. Parallel Transportation Management and Control System for Subways // IEEE Transactions on Intelligent Transportation Systems - 2017. - Vol. 18. - Issue 7. - Pp. 1974-1979. - DOI:https://doi.org/10.1109/TITS.2016.2622282.
12. Basalaev E., Gorbunov B., Efanov D. Kontrol' parametrov ustroystv avtomatiki v Peterburgskom metropolitene // Control Engineering Rossiya. - 2014. - №2. - S. 54-57.
13. Efanov D.V. Tehnicheskoe diagnostirovanie i monitoring ustroystv avtomatiki v metropolitenah // Avtomatizaciya v promyshlennosti. - 2014. - №3. - S. 4-8.
14. Sharova V.O. Modelirovanie passazhiropotoka na stancii «Kievskaya» Moskovskogo metropolitena // Avtomatika na transporte. - 2017. - Tom 3. - №2. - S. 235-249.
15. Baranov L.A., Sidorenko V.G., Loginova L.N. Podhody k modelirovaniyu passazhiropotokov v ramkah funkcionirovaniya intellektual'noy sistemy upravleniya gorodskimi rel'sovymi transportnymi sistemami // Avtomatika na transporte. - 2021. - Tom 7. - №4. - S. 539-564. - DOI:https://doi.org/10.20295/2412-9186-2021-7-4-539-564.
16. Pokusaev O., Checkmarev A., Namiot D. On Digital Twin for Metro System // Proceedings of 19th IEEE East-West Design & Test Symposium (EWDTS’2021), Batumi, Georgia, September 10-13, 2021, pp. 114-118, doi:https://doi.org/10.1109/EWDTS52692.2021.9581028.
17. Wang X., Song H., Zha W., Li J., Dong H. Digital twin Based Validation Platform for Smart Metro Scenarios // 2021 IEEE 1st International Conference on Digital Twins and Parallel Intelligence (DTPI), 15 July-15 Aug. 2021, Beijing, China, doi:https://doi.org/10.1109/DTPI52967.2021.9540161.
18. Averchenkov E.O., Dan'ko S.V. Aktual'nye zadachi modernizacii sistemy upravleniya dvizheniem poezdov Moskovskogo metropolitena // Nauka i tehnologii zheleznyh dorog. - 2017. - №2. - S. 11-22.
19. Otchet po nauchno-issledovatel'skoy rabote «Provedenie nauchnyh issledovaniy i razrabotka obschih tehnicheskih trebovaniy k kompleksnoy sisteme upravleniya i obespecheniya bezopasnosti dvizheniya poezdov v Moskovskom metropolitene i Central'nom transportnom uzle pri realizacii proekta «Moskovskie central'nye diametry». Tema: 168-DTiRDTI-S ot 17.12.2020 (Reg. № RUT (MIIT) 13n/20), M.: 2021, v 10 tomah.
20. Balakina E.P. Principy postroeniya algoritmov sistemy podderzhki prinyatiya resheniy poezdnomu dispetcheru // Nauka i tehnika transporta. - 2008. - №2. - S. 23-26.
21. Baranov L.A., Balakina E.P. Perspektivy ispol'zovaniya mnogofunkcional'nyh modeley // Mir transporta. - 2012. - №2. - S. 70-74.
22. Novikov V.G., Safronov A.I., Kuzyukov V.A. Mikroprocessornye sistemy upravleniya dvizheniem poezdov v Moskovskom metropolitene // Avtomatika na transporte. - 2020. - Tom 6. - №3. - S. 89-103. - DOI:https://doi.org/10.20295/2412-9186-2020-6-3-268-293.
23. Averchenkov E.O., Baranov L.A., Shevchenko M.A. Funkcional'naya struktura kompleksa sistem upravleniya dvizheniem poezdov metropolitena // Avtomatika na transporte. - 2021. - T. 7. - №3. - S. 343-361. - DOI:https://doi.org/10.20295/2412-9186-2021-7-3-343-361.
24. Kul'tin I.V., Simakov E.V., Zhukov S.A., Pentegov D.A. Problemy modernizacii sistem avtomatiki i telemehaniki dvizheniya poezdov v usloviyah deystvuyuschego metropolitena // Metro i tonneli. - 2016. - №6. - S. 75-76.
25. Nikitin A.B., Yashin M.G., Panteleev R.A. Transportabel'nye moduli elektricheskoy centralizacii kak sredstvo vosstanovleniya sistem upravleniya dvizheniem poezdov // Avtomatika na transporte. - 2015. - T. 1. - №2. - S. 127-142.
