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Aleksandrova E. Yu., Kramynina G. N., Gromyshova S. S. Analiz otkazov tekhnicheskih sredstv v slozhnostrukturirovannoj transportnoj sisteme [Analysis of failures of technical means in the complex structured vehicle system]. Molodaya nauka Sibiri: ehlektronnyj nauchnyj zhurnal [Young science of Siberia: electronic scientific journal], 2020, no. 2. [Accessed 09/07/20]

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This article notes the factors affecting reliability and the causes of hardware failures. The key indicators of monitoring and control are analyzed. For 12 months of 2019, events were not allowed compared to the same period last year. The number of failures of all categories for 12 months of the current year compared with the same period last year was 100/71 (+ 40.8%), 1.2 categories - 26/24 (+ 8.3%), 3 categories - 74/47 (+ 57%). According to the results of the distance, over the 12 months of 2019, compared to the same period last year, a total of 98/65 trains (+ 51%), passenger trains 6/7 (-14%), commuter trains 16/13 (+ 23%) were detained, freight trains 72/43 (67%)

List of references: 

1. JSC Russian Railways: officer portal. URL:

2. Shamanov V.I. Methods of optimizing the maintenance of automation systems / V.I. Shamanov // Automation in transport. - 2016. T. 2. No. 4. pp. 481–496.

3. Gromyshova S.S., Operation of devices of a multifunctional complex of technical equipment in complexly structured transport systems as a factor in ensuring the safety of train traffic and operational reliability. Modern technologies. System analysis. Modeling. 2019. No 4 (64). pp. 167–173.

4. Olentsevich V.A., Good Yu.O. The need to use a systematic approach to human resource management in the railway transport system // Science today: reality and prospects: materials int. scientific-practical Conf., Vologda, 2019. - pp. 24-26.

5. Efanov D.V. Formation and prospects of development of systems of functional control and monitoring of railway automation and telemechanics devices / D.V. Efanov // Automation in transport. 2016. T. 1. No. 1. pp. 124–148.

6. Gozbenko V.E., Gromyshova S.S., Belogolov Yu.I. Analysis and research of factors affecting traffic safety. In the collection: Science, education, society: trends and development prospects Abramova L.A. Collection of materials of the XIII International Scientific and Practical Conference. Editorial Board: O.N. Shirokov [et al.]. 2019. – pp.149-155.

7. Olentsevich V.A. Systematization of factors affecting the safety of transportation of goods by rail / V.A. Olentsevich // Security of the regions - the basis of sustainable development: materials of the Third Int. scientific and practical conf. - Irkutsk: IrGUPS, 2012. pp. 197-202.

8. Sapozhnikov V.V., Sapozhnikov Vl. V., Shamanov V.I. Reliability of railway automation systems, telemechanics and communications. - M.: Route, 2003. 257 p.

9. Maryukhnenko V.S., Pultyakov A.V. Features of monitoring the technical condition of rolling stock on the run of the Automation train in transport. 2016. Vol. 2. No. 2. pp. 272–287.

10. Gapanovich V. A. Progressive technologies for ensuring the safety of train traffic and the safety of transported goods. / I. I. Galiev, Yu. I. Matyash, V. P. Klyuka M.: “Educational and methodical center for education on railway transport”, 2008.  220 p.

11. Lebedeva O., Kripak M., Gozbenko V. Increasing effectiveness of the transportation network by using the automation of a voronoi diagram. В сборнике: Transportation Research Procedia 2018. С. 427–433.

  12. Lebedeva, O., Kripak, M., Gozbenko, V. Increasing effectiveness of the transportation network through by using the automation of a Voronoidiagram.Transportation Research Procedia, 36, pp. 427–433.

13. Semenov D.O. Improving the efficiency of safety and reliability in railway transport // Transport Business of Russia. 2017. No. 3. S. 102 - 104.

14. Dvoeglazov AV, Visually about the structure of KTSM – 02 / V. I. Khopersky Automation, communication, computer science. 2010. No. 11. pp. 31–34.

15. Shvalov D.V. Diagnostic system of rolling stock. / V.V. Shapovalov M.: Route, 2005. - p. 268.