Abstract
Railway carriers notice an increased need to improve the level of railway traffic safety and efficiency. This is achieved through the education of train drivers and increased opportunities to familiarize railway employees with the control systems of railway vehicles and railway traffic. The dynamic development of the computing power of computers and the increasing possibilities of generating realistic images allowed manufacturers to design and manufacture simulators in accordance with the latest technological trends, including based on a virtual three-dimensional environment. Safe and efficient conducting railway traffic requires the use of increasingly new telematics solutions railway traffic control devices and systems. The article presents a series of simulators of railway traffic control devices used in the didactic classes were presented.
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References
Astengo, G., et al.: A new approach to model signalling systems on railway networks. In: Computers in Railways VI. Advances in Transport, vol. 2, pp. 1077–1084. Computational Mechanics Publications LTD, Southampton (1998)
Bartnik, W.: Najnowsze trendy w rozwoju symulatorów kolejowych, Transport Kolejowy 2017. Przeszłość – Teraźniejszość – Przyszłość, Urząd Transportu Kolejowego, Warszawa (2017)
Chrzan, M., Nowakowski, W., Sobiczewski, W.: Współczesne systemy prowadzenia ruchu pociągów na przykładzie Linii E-20. Technika Transportu Szynowego Nr 9/2012
Ciszewski, T., Nowakowski, W.: Interoperability of IT systems in the international railways. In: Proceedings of 16th International Scientific Conference Globalization and Its Socio-Economic Consequences, Part I, pp. 312–320. University of Zilina, Rajecke Teplice, Slovak Republic, October 2016. ISBN 978-80-8154-191-9
Ciszewski, T., Nowakowski, W., Wojciechowski, J.: Symulator pulpitu maszynisty, Logistyka, vol. 4, pp. 2819–2824 (2015)
Dyduch, J., Kornaszewski, M., Pniewski, R.: Proces kształcenia specjalistów z zakresu Sterowania Ruchem Kolejowym na przykładzie Politechniki Radomskiej. Problemy Kolejnictwa, zeszyt 155, Warszawa (2012)
Dyduch, J., Kornaszewski, M., Pniewski, R.: Rozwój infrastruktury badawczej UTH Radom o nowe urządzenia automatyki kolejowej. AUTOBUSY Technika, Eksploatacja, Systemy Transportowe Nr 6 (196), Radom (2016)
Dyduch, J., Kornaszewski, M.: Komputerowe systemy sterowania ruchem kolejowym. Wydawnictwo Uniwersytetu Technologiczno-Humanistycznego, Radom (2014)
Galaverna, M., Savio, S., Sciutto, G.: A railway operation simulator for line traffic capacity evaluation. In: Computers in Railways III, vol. 1, pp. 15–24. Computational Mechanics Publications LTD, Southampton (1992)
Kim, I., et al.: Integration of driving simulator and traffic simulation to analyse behaviour at railway crossings. In: Proceedings of The Institution of Mechanical Engineers, part F-Journal of Rail and Rapid Transit, vol. 227, no. 5, pp. 427–438. SAGE Publications LTD, London (2013). https://doi.org/10.1177/0954409713489117. ISSN: 0954-4097
Kornaszewski, M., Chrzan, M.: Charakterystyka systemów kierowania i sterowania ruchem stosowanych w kolejnictwie polskim. Technika Transportu Szynowego 9/2012
Kornaszewski, M., Chrzan, M., Olczykowski, Z.: Implementation of new solutions of intelligent transport systems in railway transport in Poland. In: Mikulski, J. (ed.) TST 2017. CCIS, vol. 715, pp. 282–292. Springer, Cham (2017). https://doi.org/10.1007/978-3-319-66251-0_23
Kornaszewski, M.: Lokalne centra sterowania w procesie prowadzenia ruchu pociągów. AUTOBUSY Technika, Eksploatacja, Systemy Transportowe Nr 3(159), Radom (2013)
Kornaszewski, M.: Microprocessor technology and programmable logic controllers in new generation railway traffic control and management systems. Arch. Transp. Syst. Telematics 11(2), 18–23 (2018). ISSN 1899-8208
Kornaszewski, M.: Zdalne sterowanie ruchem w transporcie kolejowym w Polsce. Technika Transportu Szynowego Nr 9/2012
Kornaszewski, M., Pniewski, R.: Impact of new informatics solutions using in railway transport on its safety. In: Proceedings of the 22nd International Scientific on Conference Transport Means 2018, vol. 2008-October, Part II, pp. 996–1001, Trasalis - Trakai Resort and SPAGedimino str. 26Trakai; Lithuania, 3–5 October 2018 (2018). ISSN 1822-296 X (print), ISSN 2351- 7034 (online)
Krivka, J., et al.: Hardware for rail traffic simulator. In: Proceedings of Conference: 21st Telecommunications Forum (TELFOR), Belgrade, Serbia, 26–28 November 2013, pp. 590–593. IEEE, New York (2013)
Mera, J.M., et al.: Simulation of the railways control and protection ERTMS/ETCS; level-0, level-1 and level-2. In: Computers in Railways VIII. Advances in Transport, vol. 13, pp. 1119–1128. WIT Press, Southampton (2002)
Mikulski, J., Bogacki, D., Sobanski, M.: Computer models of simulation of the railway traffic control system operation as a didactic aid. In: Advances in Intelligent Systems. Frontiers in Artificial Intelligence and Applications, vol. 41, pp. 262–266. IOS Press, Van Diemenstraat (1997)
Nowakowski, W., Ciszewski, T., Łukasik, Z.: The concept of railway traffic control systems remote diagnostic. In: Mikulski, J. (ed.) TST 2017. CCIS, vol. 715, pp. 471–481. Springer, Cham (2017). https://doi.org/10.1007/978-3-319-66251-0_38
Pniewski, R., Kornaszewski, M., Chrzan, M.: Safety of electronic ATC systems in the aspect of technical and operational. In: Proceedings of 16th International Scientific Conference Globalization and Its Socio-Economic Consequences. Part IV, pp. 1729–1735. University of Zilina, Rajecke Teplice, October 2016. ISBN 978-80-8154-191-9
Scheidt & Bachmann GmbH: Elektronische Stellwerk ZSB (2000). http://www.scheidt-bachmann.de/de/systeme-fuer-signaltechnik/stellwerkstechnik/. Accessed 2 Dec 2017
Sondi, P., et al.: Toward a common platform for simulation-based evaluation of both functional and telecommunication sub-systems of the ERTMS. In: Proceedings of ASME 2012 Joint Rail Conference, Philadelphia, 17–19 April 2012, pp. 351–359. AMER SOC Mechanical Engineers, New York (2012). https://doi.org/10.1115/jrc2012-74049
Vlasek, J., et al.: Software for rail traffic symulator. In: Proceedings of Conference, 21st Telecommunications Forum (TELFOR), Belgrade, Serbia, 26–28 November 2013, pp. 594–596. IEEE, New York (2013)
Wydro, K.B.: Usługi i systemy telematyczne w transporcie. Telekomunikacja i Techniki informacyjne Nr 3-4, Wydawnictwo Instytutu Łączności w Państwowym Instytucie Badawczym, Warszawa (2008)
http://symulatory.net.pl/art,106,symulator-urzadzen-sterowania-ruchem-i-modelowania-infrastruktury-kolejowej-tresim. Accessed 5 Jan 2019
http://symulatory.net.pl/art,5,symulator-koleje-mazowieckie-km-sp-z-oo. Accessed 19 Dec 2018
http://symulatory.net.pl/art,8,symulator-urzadzen-sterowania-ruchem-kolejowym-pkp-plk-sa. Accessed 19 Dec 2018
http://wroclaw.wyborcza.pl/wroclaw/51,35754,19482171.html. Accessed 9 Nov 2018
https://www.rynek-kolejowy.pl/wiadomosci/srk-i-automatyka-polem-dla-polskich-innowacji-77057.html. Accessed 9 Nov 2018
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Kornaszewski, M., Pniewski, R. (2019). The Impact of New Telematics Solutions on the Safety of Railway Traffic on the Example of Modern Simulators Railway Traffic Control Devices. In: Mikulski, J. (eds) Development of Transport by Telematics. TST 2019. Communications in Computer and Information Science, vol 1049. Springer, Cham. https://doi.org/10.1007/978-3-030-27547-1_3
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DOI: https://doi.org/10.1007/978-3-030-27547-1_3
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