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GERT model of a technical station for determining the passenger trainset delay

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Języki publikacji
EN
Abstrakty
EN
The paper presents a technical station model using the graphical evaluation and review technique – GERT. The network model reflects the operation of trainset service in compliance with the technology and technical equipment as well as interaction between technological systems at the service stations that are different by track development but connected to big passenger stations, which gives a possibility of determining the service time of trainsets depending on the number of carriages and the specificity of operation conditions. This GERT model is applied to the case study of an individual service station within the railway network in Bulgaria. The regression functions of service time are worked out according to the type and the number of carriages taking into account the limitation parameters. The functions obtained could be used for trainset scheduling to optimize the operation of passenger carriage fleet.
Czasopismo
Rocznik
Strony
81--93
Opis fizyczny
Bibliogr. 27 poz.
Twórcy
  • University of Transport “TodorKableshkov” Geo Milev 158, Sofia, Bulgaria
Bibliografia
  • 1. Kaakai, F. & Hayat, S. & El Moudni, A. A hybrid Petri nets-based simulation model for evaluating the design of railway transit stations. Simulation Modelling Practice and Theory. September. 2007. Vol. 15. No. 8. P. 935-969. Available at: https://doi.org/10.1016/j.simpat.2007.05.003.
  • 2. Freling, R. & Lentink, R. & Kroon, L. & Huisman, D. Shunting of passenger train units in a railway station. Rotterdam. Erasmus Research Institute of Management (ERIM).23 p. Available at: https://repub.eur.nl/pub/221/erimrs20020909125022.pdf.
  • 3. Bekey, G.A. & Kogan, B.J. Modeling and Simulation: Theory and Practice. A Memorial Volume for Professor Walter J. Karplus (1927-2001). Springer Science & Business Media. 6.12.2012.
  • 4. Reijers, H.A. Design and Control of Work flow Processes.Technical University of Eindhoven Department of Technology Management. Berlin, Heidelberg, New York: Springer-Verlag. ISSN 0302-9743. ISBN 3-540-01186-2
  • 5. Ohta, H. GERT analysis of a single convey or system. International Journal of Production Research. 1979. Vol. 17. No. 4. P. 405-410.
  • 6. Karagiozov, K. Aproximate method for modeling of the open general queueing networks In: Internationale conference on operation research. Operation research. 1990.
  • 7. Kleinrock, L. Queueing Systems. Vol. I. – Theory. New York. Wiley Interscience. 1975. 417 p. ISBN 978-0471491101.
  • 8. Lin, B. Non resort Operating Parameter Model for Technical Station's Train Formation Plan with Locomotive Extended Routing. Journal of the China railway society. 1999. Vol. 06.
  • 9. Lipsky, L. Queueing Theory. A Linear Algebraic Approach. N.Y. Macmillan. 1992. 384 p. ISBN 0-02-370962-9.
  • 10. Little, J. Proof of Queueing Formula. Operations Research. 1961. No. 9. P. 383-387.
  • 11. Agarwal, M. & Mohan, P. GERT analysis of m-consecutive-k-out-of-n:F system with overlapping runs and (k-1)-step Markov dependence. International Journal of Operational Research. 2008. Vol. 3. No.1/2. P. 36-51.
  • 12. Pritsker, A.A.B. & Whitehouse, G.E. GERT. Graphical Evaluation and Review Technique, Part I: Probabilistic and Engineering Applications. Journal of Industrial Engineering. 1966. Vol. 17(6). P. 293-303.
  • 13. Pritsker, A.A.B. GERT: Graphical Evaluation and Review Technique. RM-4973-NASA April 1966. 152 p.
  • 14. Saaty, T. Elements of Queueing Theory with Applications. N.Y. Dover. 1983.
  • 15. Stoilova, Sv. & Nikolova, R. Classifying Railway Passenger Stations for use Transport Planning –Application to Bulgarian Railway Network. Transport Problems. 2016. Vol. 11. No. 2. P. 143-156.
  • 16. Shankar, G. & Sahani, V. GERT analysis of a two-unit cold stand by system with repair, Pt. Ravishankar Shukla University. Raipur (M.P.). India. Accepted 6 May 1994. Available online 23 February 2000.
  • 17. Taxa, H. Operation research. New Jersey. Prentice Hall, University of Arkansas. 910 p.
  • 18. Todorova, M. GPSS Simulation of Coach Yard Operation and Application of the Model to Optimize Performance In: 22nd International Symposium EURO - Zel 2014 Recent Challenges for European Railways. 03-04 June 2014. Žilina. P. 238-246.
  • 19. "БДЖ" ЕАД Поделение за почистване и екипиране, Технологията за ежедневно, основно вътрешно почистване и екипиране на пътническите вагони и ЕМВ. София. 2015. [In Bulgarian: BDZ EAD. Department for cleaning and equipping. Technology for daily, basic internal cleaning and equipping passenger coaches and EMU. Sofia. 2015].
  • 20. "БДЖ" ЕАД Поделение за почистване и екипиране. Норми на време за eжедневно вътрешно почистване на вагоните и ЕМВ. София. 2015. [In Bulgarian: BDZ EAD. Department for cleaning and equipping. Standards of daily, basic internal cleaning and equipping passenger coaches and EMU. Sofia. 2015].
  • 21. Министерство на транспорта и съобщенията, Нормативи за железопътния транспорт. София. 2002. [In Bulgarian: Ministry of Transport and Communications, Railway Transport Regulations. Sofia. 2002].
  • 22. Министерство на транспорта и съобщенията, Закон за железопътния транспорт. София. Двбр. 97/28.11.2000 [In Bulgarian: Ministry of Transport and Communication. Railway Transport Act. State Gazette. No. 97. Sofia. 28.11.2000].
  • 23. Организация процессов освоения дальних и пригородных пассажиропотоков. Методические указания по выполнению курсового проекта. Чита. 2003. 44 с. [In Russian: Organization of processes of using long distance and suburban passenger flows. Methodological instructions for term project development.Chita. 2003. 44 p.].
  • 24. Покацкая, Е.В. & Левченко, А.С. Пассажирский железнодорожный комплекс - пассажирские станции. Самарская государственная академия путей сообщения. 2007. [In Russian: Pokatskaya, E.V. & Levchenko, A.S. Railway passenger complexes – passenger stations, Samara State Academy of Communication Roads. 2007].
  • 25. Правдин, Н.В. & Рябуха, Л.С. & Лукашев, В.И. Технология работы вокзалов и пассажирских станций. Москва: Транспорт. 1990. 320 p. [In Russian: Pravdin, N.V. & Ryabuha, L.S. & Lukashev, V.I. Technology of operation of railway stations and passenger stations. Moscow: Transport. 1990. 320 p.].
  • 26. Тасев, Й. & Карагьозов, К. Ръководство за курсово и дипломно проектиране по устройство, технология и проектиране на железопътни гари и възли. ВМЕИ. София. 1983. 182 с. [In Bulgarian: Tasev, Y. & Karagyozov, K. Handbook for development of term projects and diploma papers in designing railway stations and junctions. HIMEE, Sofia. 1983. 182 p.].
  • 27. Тодорова, М.Т. Дисертационен труд “Оптимизация на използването на подвижния състав в пътническия железопътен транспорт”. ВТУ Т. Каблешков, София. 2013. [In Bulgarian: Todorova, M. Optimization of rolling stock usingin passenger railway transport. Todor Kableshkov University of Transport. PhD thesis. Sofia. 2013. 138 p.].
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-74cbb8ea-f48f-440e-a39e-74fc14660142
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