Adaptation of Vehicle Operation to Changing Requirements and Trends in the Transport Industry

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Abstract

In the contemporary era, as the transportation industry undergoes significant transformations, the imperative of refining vehicular operation methodologies gains prominence. This scholarly pursuit is aimed at justifying the necessity of adapting vehicular usage approaches in the context of escalating demands for ecological sustainability, safety, and operational efficacy.

To dissect the prevailing landscape and distill principal trends, an exhaustive scrutiny of academic discourses and sector-specific reports encompassing the epoch from 2015 to 2022 was undertaken. This examination delved into statistical delineations of vehicular traffic volumes and the emission of deleterious substances from motor vehicles, both within the Russian Federation and in the international arena.

The crux of this inquiry revealed that the contemporary challenges besieging the transportation domain predominantly pertain to curtailing the adverse anthropogenic impact upon the environment, whilst concurrently augmenting both cargo and passenger throughput. In response, a compendium of strategies has been articulated to enhance the environmental rectitude and safety of vehicular operations. These include the pivot to alternative fuel sources, the deployment of sophisticated intelligent transportation management architectures, and the catalyzation of electric mobility's evolution.

About the authors

Stepan V. Demyanchuk

St. Petersburg State University of Architecture and Civil Engineering

Author for correspondence.
Email: sprints.spirit@mail.ru
ORCID iD: 0009-0004-7471-6068

graduate student of the Department of “Transport Systems”

Russian Federation, 4, 2-d Krasnoarmeiskaia Str., Saint-Petersburg, 190005, Russian Federation

References

  1. Barannik A.IU., Ovchinnikov V.V., Kurbatov M.IU., Mingaleev S.G. Tekhnologii grazhdanskoi bezopasnosti, 2020, vol. 17, no. 3 (65), pp. 21-28.
  2. Voloshinskaia A.A., Komarov V.M. Terra Economicus, 2017, vol. 15, no. 4, pp. 92-108.
  3. Gorbunova A.D. Progressivnye tekhnologii i protsessy: sbornik nauchnykh statei 6-i Vserossiiskoi nauchno-tekhnicheskoi konferentsii s mezhdunarodnym uchastiem [Advanced technologies and processes: collection of scientific articles of the 6th All-Russian Scientific and Technical Conference with international participation], Kursk, September 25-26, 2019. Kursk: South-West State University, 2019, pp. 66-68.
  4. Faskhiev H.A. EKO [ECO], 2020, no. 2, pp. 102-122. https://doi.org/10.30680/ЕС00131-7652-2020-2-102-122
  5. Maisner T. N. Gumanitarii IUga Rossii [Humanities of the South of Russia], 2020, no. 3, vol. 9 (43), pp. 191-201.
  6. Donchenko V.V., SHelmakov S.V., SHarov M.I., Lobikov A.V., CHizhova V.S. Vestnik MADI [Herald of MADI], 2021, no. 2 (65), pp. 74-80.
  7. Moriarti P., Van S.Dzh. Energeticheskaia protsedura [Energy procedure], 2015, no. 75, pp. 2523-2528.
  8. Otsenki Mezhdunarodnoi energeticheskoi assotsiatsii (MAGATE) v oblasti energetiki. Elektroenergii i iadernoi energetiki na period do 2050 goda. [Assessments of the International Energy Association (IAEA) in the field of energy. Electricity and nuclear energy for the period up to 2050]. Vena: MAGATE, 2012.
  9. Ragimov E.A. Pribory i sistemy. Upravlenie, kontrol', diagnostika [Devices and systems. Management, control, diagnostics], 2019, no. 11, pp. 11-16. https://doi.org/10.25791/pribor.11.2019.1001
  10. Ustiuzhina E.V., Dubrovskaia A.V., Krasov D.I., ZHumagulova A.U. Peredovye innovatsionnye razrabotki. Perspektivy i opyt ispol'zovaniia, problemy vnedreniia v proizvodstvo: Sbornik nauchnykh statei po itogam shestoi mezhdunarodnoi nauchnoi konferentsii, Kazan', 31 iiulia 2019 goda [Advanced innovative developments. Prospects and experience of use, problems of implementation in production: Collection of scientific articles based on the results of the sixth International Scientific conference, Kazan, July 31, 2019]. Volume Part 1. Kazan: Convert, 2019, pp. 205-211.
  11. Strizoe A.L. Vestnik Volgogradskogo universiteta. Seriia «Filosofiia» [Bulletin of the Volgograd University. Series "Philosophy"], 2017, vol. 16, no. 1, pp. 67-71.
  12. Toilybaev A.E. Universum: tekhnicheskie nauki [Universum: Technical sciences], 2018, no. 5(50), pp. 34-37.
  13. Frolov D.P., Solov'eva I.A. Prostranstvennaia ekonomika [Spatial economics], 2016, no. 3, pp. 151-171.
  14. KHokhlova N.I., SHibaeva L.V. Upravlenie obrazovaniem: teoriya i praktika [Education management: theory and practice] 2021, vol. 11, no. 4, pp. 54-63.
  15. SHelmakov S.V. Ekotransport [Ecotransport]. Moscow: MADI, 2018, 160 p.
  16. Elektrobus stolitsy: on mozhet proekhat' 59 km. No eto normal'no [Electric bus of the capital: it can travel 59 km. But that's okay.] URL: https://www.zr.ru/content/articles/921925-ehlektrobus-liaz-6274/
  17. Prokopova V.O., Riabykin A.A., Karpikov R.O., Morgunov L.V. Pokolenie budushchego: Vzgliad molodykh uchenykh - 2017: Sbornik nauchnykh statei 6-i Mezhdunarodnoi molodezhnoi nauchnoi konferentsii [The Generation of the Future: The View of young scientists - 2017: Collection of scientific articles of the 6th International Youth Scientific Conference]. In 4 volumes, Kursk, November 09-10, 2017 / Ed. A.A. Gorokhov. Volume 4. Kursk: Universitetskaya kniga, 2017, pp. 138-140.

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