Increasing the capacity of motor transport sections by adapting the closing time of a regulated railway crossing
https://doi.org/10.46973/0201-727X_2025_2_151
Abstract
The growing volume of traffic necessitates the improvement of train control systems and safety measures. The application of the principles and methods implemented by the train control and safety systems using the digital radio data transmission channel contributes to the improvement of the train traffic safety level, as well as the capacity of the transport routes. One of such methods, among many known today, is the adaptive closure of the railway crossing by changing the length of the section of the traffic participants' notification of the train approach to the crossing, which allows to ensure the safe movement of motor vehicles through the railway crossing with the minimum allowable time of notification of the train approach.
About the Authors
V. G. NovikovRussian Federation
Novikov Vyacheslav Gennadievich, Chair «Information Management and Security» and «Automation, Telemechanics, and Communications in Railway Transport», Candidate of Engineering Sciences, Associate Professor
A. I. Safronov
Russian Federation
Safronov Anton Igorevich, Chair «Information Management and Security», Candidate of Engineering Sciences, Associate Professor
M. A. Beschastny
Russian Federation
Beschatny Mikhail Alexandrovich, Chair «Information Management and Security», Candidate of Engineering Sciences, Associate Professor
References
1. Rosenberg, E. N. Concept of development of intelligent control systems and ensuring safety of train traffic / E. N. Rosenberg, V. G. Novikov // Intelligent transport systems : proceedings of the IV International scientific and practical conference, Moscow, May 22, 2025. – Moscow : RUT (MIIT), 2025. – P. 376–383. – DOI 10.30932/9785002587582-2025-376-383.
2. Ermakova, A. E. Principles of construction and operation of modern intelligent control systems for road transport without operator participation / A. E. Ermakova, I. S. Ikonnikov, A. I. Safronov // Intelligent transport systems : proceedings of the III International scientific and practical conference, Moscow, May 30, 2024. – Moscow : RUT (MIIT), 2024. – P. 118–122. – DOI 10.30932/9785002446094-2024-118-122.
3. Patent No. 2791353 C1 Russian Federation, IPC B61L 27/04, B61L 27/60. Intelligent complex for controlling the transportation process of the urban rail transport system (GRTS) : No. 2022113881 : declared 24.05.2022 : published 07.03.2023 / E. P. Balakina, L. A. Baranov, A. V. Ershov [et al.] ; applicant Federal State Autonomous Educational Institution of Higher Education "Russian University of Transport". – EDN FUBFXG.
4. Baranov, L. A. Features of automated train movement planning in intelligent control systems for off-street urban transport under heavy traffic conditions / L. A. Baranov, V. G. Sidorenko, A. I. Safronov // Intelligent Transport Systems : proceedings of the International scientific and practical conference, Moscow, May 26, 2022. – Moscow : RUT, 2022. – P. 59–70. – EDN GTPSTP.
5. Integrated technology for interval control of train traffic / S. A. Kobzev, E. N. Rozenberg, V. A. Voronin [et al.]. – Moscow : T8 Publishing Technologies, 2023. – 216 p. – ISBN 978-5-521-23792-0.
6. Evteev, D. V. System for interval control of train traffic with movable block sections / D. V. Evteev, V. G. Novikov // Intelligent transport systems : proceedings of the IV International scientific and practical conference, Moscow, May 22, 2025. – Moscow : RUT (MIIT), 2025. – P. 526–531. – DOI 10.30932/9785002587582-2025-526-531.
7. Rosenberg, E. N. Application of virtual coupling technology on the eastern testing ground / E. N. Rosenberg, M. A. Dezhkov, V. G. Novikov // Automation, communication, informatics. – 2025. – No. 8. – P. 7–11. – DOI 10.62994/AT.2025.8.8.002.
8. Novikov, V. G. Increasing the throughput of metro sections through the use of a digital radio channel and an infrared data transmission channel / V. G. Novikov, L. N. Loginova // Science and technology of transport. – 2023. – No. 4. – P. 30–36. – ISSN 2074-9325.
9. Novikov, V. G. Ensuring the safety of train traffic with the coordinate method of interval control / V. G. Novikov // Problems of safety management of complex systems : proceedings of the XXXII International conference dedicated to the memory of Vladimir Vasilyevich Kulba, honored scientist of the Russian Federation, Doctor of Engineering Sciences, professor, Moscow, November 13, 2024. – Moscow : V.A. Trapeznikov Institute of Control Sciences of the Russian Academy of Sciences. – 2024. – P. 369–379. – ISBN 978-5-91450-277-2.
10. Novikov, V. G. Ensuring train traffic safety with the coordinate method of interval regulation / V. G. Novikov // Problems of complex systems safety management : proceedings of the XXXII International conference dedicated to the memory of Vladimir Vasilyevich Kulba, honored scientist of the Russian Federation, Doctor of Technical Sciences, professor, Moscow, November 13, 2024. – Moscow : V.A. Trapeznikov Institute of Control Sciences of the Russian Academy of Sciences, 2024. – P. 369–379. – EDN IMULAZ.
11. Mikhalevich, I. F. Individual mobility devices in the system of subject-object safety relations / I. F. Mikhalevich, I. A. Zherebyatin // Intelligent transport systems : proceedings of the IV International scientific and practical conference, Moscow, May 22, 2025. – Moscow : RUT (MIIT), 2025. – P. 660–666. – DOI 10.30932/9785002587582-2025-660-666.
12. Lisyuk, Ya. V. On the issue of organizing traffic at level crossings and dividing crossings into categories / Ya. V. Lisyuk, K. E. Demenyuk, G. G. Akhmedzyanov // Young scientist. – 2022. – No. 13 (408). – P. 12–14. – ISSN 2072-0297.
13. Galinurov, R. Z. Improving the efficiency of railway crossing operation : specialty 29.40.00 : dissertation for the degree of Candidate of Technical Sciences / Galinurov Rishat Zinfirovich. – Yekaterinburg, 2022. – 210 p.
14. Tretyakov, G. M. Intelligent algorithm for automated control of level crossing signaling / G. M. Tretyakov, A. E. Tarasova, E. M. Tarasov // Electrical Engineering. – 2023. – No. 10. – P. 29– 34. – DOI 10.53891/00135860_2023_10_29.
15. Operating conditions of railway crossings. Approved by order of the Ministry of Transport of the Russian Federation dated October 5, 2022 N 402 "On Approval of the Operating Conditions of Railway Crossings" // Garant. Information and legal support. – URL: https://www.garant.ru/products/ipo/prime/doc/406179331/ (date of access: 15.10.2025).
16. Gulyaev, D. M. Increasing the capacity of a railway crossing by adapting the closing time / D. M. Gulyaev // Intelligent transport systems : proceedings of the IV International scientific and practical conference, Moscow, May 22, 2025. – Moscow : RUT (MIIT), 2025. – P. 512–516. – DOI 10.30932/9785002587582-2025-512-516.
17. I-276-00. Methodological guidelines for the design of automatic, telemechanics, and communication devices in railway transport. Calculation of operating parameters of level crossing signaling. Approved by the Ministry of Railways of the Russian Federation by letter No. TsShTekh-11/58 dated 05.11.2000 // Documentation. – URL: https://scbist.com/scb/mu/I-276-00.pdf (date of access 15.10.2025).
18. Kirillov, A. N. Automatic crossing signalling / A. N. Kirillov // Automation, Communications, Informatics. – 2025. – No. 7. – P. 5–8. – DOI 10.62994/AT.2025.7.7.002.
19. Kochetov, A. S. Promising innovative safe railway crossings with high capacity / A. S. Kochetov, L. M. Lipsits // History and prospects of transport development in Northern Russia. – 2017. – No. 1. – P. 100–104. – EDN YSTAVR.
20. Khoroshchenko, A. A. Smart logistics – a smart crossing / A. A. Khoroshchenko // Actual problems of transport in the 21st century : proceedings of the III International scientific and practical conference, Novokuznetsk, March 27– 28, 2024. – Novokuznetsk : Siberian State Industrial University, 2024. – P. 148–151. – EDN YDBEKI.
Review
For citations:
Novikov V.G., Safronov A.I., Beschastny M.A. Increasing the capacity of motor transport sections by adapting the closing time of a regulated railway crossing. Vestnik Rostovskogo Gosudarstvennogo Universiteta Putej Soobshcheniya. 2025;(4):151-160. (In Russ.) https://doi.org/10.46973/0201-727X_2025_2_151
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