Risk-Oriented Analysis of the Safety of Vehicle Operation Based on the Use of Digitalization Tools


Annotation:

The issue of occupational safety during activities of transportation in conditions of intensified impact of factors of the external environment is considered. The constituent elements of the occupational safety mechanism for the implementation of transportation processes have been analyzed. Based on the studies of injury rate in railway transport, the key causes of occupational safety decrease in contemporary geopolitical conditions have been detected, and the options for the improvement of occupational safety considering the implementation of digital technologies enabling the accumulation, registration, structuring, and analysis of large amounts of data have been considered. It is crucial for the use of blockchain technology to register the information about the movement of a vehicle without the possibility of its correction and monitor the condition of the transport infrastructure. A hybrid approach has been proposed for the development of the occupational safety mechanism based on the implementation of the «force field analysis» approach implying the identification and assessment of the impact of factors of the external environment that can directly or indirectly affect occupational safety in the transportation sphere. Using this approach enables the consideration of the riskiness of the transportation process based on the analysis of factors facilitating the improvement of life safety and factors hampering the implementation of innovations in the sphere of movement of vehicles.  Based on the studies, a model of risk-oriented analysis of the safety of vehicle operation that characterizes the level of occupational safety when assessing emerging risks during vehicle operation, oriented to the systematization of analysis of statistical data, has been presented. The options to improve the occupational safety mechanism based on the monitoring of potentially hazardous transportation risks generated by changing factors of the external environment and the assessment of consequences of risks have been proposed to develop measures of risk prevention.

References:
1. Vishnyakov Ya.D. General risk theory. Study manual. Moscow: Akademiya, 2008. 368 p. (In Russ.).
2. Vishnyakov Ya.D., Kiseleva S.P. Scientific school «Risk management and the safety of social & economic and social & political systems and natural & man-made systems». Moscow: Mir nauki, 2021. Available at: https://izd-mn.com/PDF/08MNNPM21.pdf (accessed: July 15, 2024). (In Russ).
3. Goszheldornadzor analyzed the causes of violations of the safety of train traffic in the railway transport of the Russian Federation for 12 months of 2023. Available at: https://rostransnadzor.gov.ru/news/5026 (accessed: July 15, 2024). (In Russ.).
4. Makolova L.V., Verevkina O.I. Forecasting Logistics Risks in Supply Chains Based on Process Modeling. Transport Aziatsko-Tikhookeanskogo regiona = Pacific Rim Countries Transportation System. 2022. № 4 (33). pp. 41–47. (In Russ.).
5. Nusupbek Zh. T., Zharkenov N.B., Kongkybayeva A.N., Sarsenbayev D.N, Mukasheva A.N. Ensuring the safety of vehicles. Қazaқstan ғylymy Men Tekhnikasy. 2022. № 1. pp. 178–186. DOI: 10.48081/UQZS8247
6. Eliseev S.V., Kuznetsov N.K., Eliseev A.V., Lontsikh P.A. Improving the reliability and safety of vehicle operation as a task of evaluating and forming the dynamic states of technical objects. Journal of Advanced Research in Technical Science. 2020. Iss. 20. pp. 27–33. DOI: 10.26160/2474-5901-2020-20-27-33
7. Brühwiler L., Cheng Fu, Haosheng Huang, Longhi L., Weibel R. Predicting individuals’ car accident risk by trajectory, driving events, and geographical context. Computers, Environment and Urban Systems. 2022. Vol. 93. № 1. DOI: 10.1016/j.compenvurbsys.2022.101760
8. Kester J. Insuring future automobility: A qualitative discussion of British and Dutch car insurer's responses to connected and automated vehicles. Research in Transportation Business & Management. 2022. Vol. 45. Pt. C. DOI: 10.1016/j.rtbm.2022.100903
9. Solop I.A., Chebotareva E.A., Kurenkov P.V. Innovative directions of transportation and logistics infrastructure development when the trains are lost. Transport i logistika: aktualnye problemy strategicheskogo razvitiya i operativnogo upravleniya: sb. nauch. tr. VI mezhdunar. nauch.-prakt. konf. (Transport and Logistics: actual problems of strategic development and operational management: Collection of scientific papers VI international scientific-practical conference). Rostov-on-Don, 2022. pp. 223–226. (In Russ.).
10. Chebotareva E.A. Simulation of the elements of professional intuitionin humanmachine systems for solving the problems of operational management of railway transport. Mir transporta i tekhnologicheskikh mashin = World of transport and technological machines. 2023. № 3–4 (82). pp. 61–69. (In Russ.).
11. Makolova L.V., Vishnyakov Ya.D., Vishnyakova S.P. Ensuring comprehensive safety of transport activities with the use of innovative technologies. Vestnik evraziyskoy nauki = The Eurasian Scientific Journal. 2024. Vol. 16. № 2. (In Russ.). Available at: https://esj.today/96ECVN224.html (accessed: July 15, 2024). (In Russ.).
12. Volov V.T., Kurenkov P.V., Solop I.A., Chebotareva E.A., Safonov S.A. Innovative logistics of the development of railway transport in conditions of globalization and regionalization of the global economy. Logistika = Logistics. 2023. № 6 (199). pp. 16–19. (In Russ.). DOI: 10.54959/22197222_2023_06_16
13. Ovsyanik A.I., Vishnyakova S.P., Grigorev S.M., Lopukhov A.A. The Development of Theory and Practice of Civil Protection Economy to Ensure Operational Safety and Safe Industrial Sustainable Development. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2024. № 4. pp. 93–95. (In Russ.).
14. Pozachenyuk E.A., Murava-Sereda A.V., Maksimova V.N., Shestakova L.I., Vishnyakova S.P., Kalinchuk I.V. Ensuring Ecological Safety and Rational Use of Nature in Transboundary Regions. Regionalnye geosistemy = Regional Geosistems. 2023. Vol. 47. № 4. pp. 630–642. (In Russ.). DOI: 10.52575/2712-7443-2023-47-4-630-642
DOI: 10.24000/0409-2961-2024-10-52-58
Year: 2024
Issue num: October
Keywords : occupational safety technologies environmental pollution transport infrastructure object risk-oriented analysis model operation of vehicle transport
Authors:
  • Vishnyakova S.P.
    Dr. Sci. (Econ.), Prof., Head of the Department, Financial University under the Government of the Russian Federation, Moscow, Russian Federation; Vice-Rector for Innovative Development, International Independent University of Environmental & Political Sciences, Moscow, Russian Federation
  • Makolova L.V.
    makolova76@mail.ru, Dr. Sci. (Econ.), Assoc. Prof., Prof. of the Department, Financial University under the Government of the Russian Federation, Moscow, Russian Federation; Deputy Vice-Rector for Innovative Development, International Independent University of Environmental & Political Sciences, Moscow, Russian Federation