ORGANIZING INFORMATION STRUCTURE FOR A DIGITAL STATION CONTROL SYSTEM
Abstract and keywords
Abstract (English):
The article is devoted to the study of control systems for the operation of railway station, driven by the trend in the industry towards the development and implementation of digital control systems that increase the functionality of the technological means used. The analysis of automated control systems used on railways and in the metro is carried out, their advantages and disadvantages are described. It is shown that it is necessary to build a digital system of operational control of the station, which provides automation of such intellectual functions as planning operations, forming tasks and monitoring their implementation by responsible departments. In the presented work, the synthesis of the information structure of such a system is carried out, providing the receipt, transmission and processing of data, the source of which is currently operated automated railway transport systems for various purposes. The gates of the structure (databases, information arrays) are defined, their description is given, connections between them are built, implemented functions are described. The concept of a model unit as a data package describing the information stored in the system for each element of the technological process of the station is formulated. Examples of algorithms for the functioning of the described structure in terms of movement control and the formation of model units of rolling stock located in the control loop of the system are given. Possible directions for further research are formulated.

Keywords:
digital control system, digital railway station, automated control systems, integration of control systems, digitalization of operational management
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References

1. Bitzer F. Quo vadis Digitale Leit- und Sicherungstechnik? / F. Bitzer, V. Blateau, C. Lammerskitten et al. // Eisenbahningenieur. - 2021. - Vol. 11. - Pp. 6-11.

2. Rozenberg E. N. Cifrovaya ekonomika i cifrovaya zheleznaya doroga / E. N. Rozenberg, V. I. Umanskiy, Yu. V. Dzyuba // Transport Rossiyskoy Federacii. - 2017. - № 5(72). - C. 45-49.

3. Nikitin A. B. Avtomatizaciya operativnogo upravleniya na stanciyah dispetcherskogo upravleniya / A. B. Nikitin // Konstruirovanie, sertifikaciya i tehnicheskaya diagnostika ustroystv i sistem zheleznodorozhnoy avtomatiki i telemehaniki: sb. nauch. trudov PGUPS. - SPb.: PGUPS, 2003. - S. 99-106.

4. Kornienko A. A. Intellektual'nye komp'yuternye sistemy operativnogo upravleniya dvizheniem poezdov na stanciyah / A. A. Kornienko, A. B. Nikitin, A. D. Homonenko // Izv. PGUPS. - 2012. - № 2(31). - S. 116-119.

5. Gapanovich V. A. Sistemy avtomatizacii i informacionnye tehnologii upravleniya perevozkami na zheleznyh dorogah: uchebnik dlya vuzov zh.-d. transporta / V. A. Gapanovich, A. A. Grachev i dr.; pod red. V. I. Kovaleva, A. T. Os'minina, G. M. Grosheva. - M.: Marshrut, 2006. - 544 s.

6. Matyuhin V. G. O tekuschem sostoyanii proekta ISUZhT i realizacii tehnologii interval'nogo regulirovaniya na ego platforme / V. G. Matyuhin, V. I. Umanskiy, A. B. Shabunin // Sbornik trudov vos'moy nauchno-tehnicheskoy konferencii «Intellektual'nye sistemy upravleniya na zheleznodorozhnom transporte» (ISUZhT-2019, Moskva, 21 noyabrya 2019 g.). - M.: Izd-vo OAO «NIIAS», 2019. - S. 3-7.

7. Nikitin A. B. Kompleksnaya avtomatizirovannaya sistema dispetcherskogo upravleniya rabotoy Ekaterinburgskogo metropolitena / A. B. Nikitin, D. V. Uglev // Sovremennye tehnologii avtomatizacii. - 2016. - № 4. - C. 64-68.

8. Behrens M. Auf dem Weg zum Digitalen Knoten Stuttgart: ein Uberblick / M. Behrens, E. Eckardt, M. Kummling et al. // Eisenbahningenieur. - 2020. - Vol. 4. - Pp. 14-18.

9. Floter C. Innovative cooperation for the vehicle equipment at Stuttgart Digital Node / C. Floter, F. Raichle, T. Hohne et al. // Signal + Draht. - 2022. - Vol. 9. - Pp. 42-51.

10. Steffens S. SIL4 Data Center - a new platform architecture for safety-relevant railway applications / S. Steffens, T. Suess, F. Eschmann et al. // Signalling + Datacommunication. - 2021. - Vol. 10. - Pp. 41-48.

11. Bojic M. ETCS in large stations using the example of Stuttgart Central Station / M. Bojic, H. El-Hajj-Sleiman, M. Flieger et al. // Signal + Draht. - 2021. - Vol. 04. - Pp. 21-29.

12. Harmsen F. Was, wo, wann, warum? - Die automotisierte Erfassung von Bahninfrastruktur / F. Harmsen, P. Hintze, J. Elstner // Signal + Draht. - 2019. - Vol. 12. - Pp. 51-61.

13. Theeg G. Railway Signalling and Interlocking. International Compendium. 3rd edition / G. Theeg, S. Vlasenko, E. Anders et al. - Germany, Leverkusen: PMC Media House GmbH Publ., 2020 - 553 p.

14. Harmsen F. Was, wo, wann, warum? - Die automotisierte Erfassung von Bahninfrastruktur / F. Harmsen, P. Hintze, J. Elstner // Signal + Draht. - 2019. - Vol. 12. - Pp. 51-61.

15. Grzechca D. Comparison of Filtering Methods for Enhanced Reliability of a Train Axle Counter System / D. Grzechca, A. Szczeponik // Sensors. - 2020. - № 20.10. - P. 2754. - DOI:https://doi.org/10.3390/s20102754.

16. Poroshkov V. S. Primenenie schetchikov osey v interval'nom regulirovanii dvizheniya poezdov / V. S. Poroshkov // Problemy vnedreniya rezul'tatov innovacionnyh razrabotok: sbornik statey po itogam Mezhdunaronoy nauchno-prakticheskoy konferencii. - Ufa: OOO «Agentstvo mezhdunarodnyh issledovaniy», 2019. - S. 100-103.

17. Groshev V. A. Ob opredelenii mest ustanovki schetchikov osey v gorlovinah stanciy / V. A. Groshev // Avtomatika na transporte. - 2022. - № 2(8). - C. 162-177. - DOI:https://doi.org/10.20295/2412-9186-2022-8-02-162-177.

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