Abstract
Railway automation systems, like other technical systems, despite the constant development are vulnerable to failures. However, due to the fact that they belong to the group of safety-critical systems, also called safety-related systems, they are required to be highly reliable. For this purpose the appropriate maintenance measures and operational tests are carried out. The results of these tests provide some valuable knowledge that allows to improve railway automation systems and modify their operation processes. The implementation of this task requires the development of IT tools that support diagnostics enabling the assessment of the technical condition of a given system, the evolution of this state and the resulting consequences. The software framework developed by the paper’s authors to simulate failures in railway automation systems is helpful in testing diagnostics tools.
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Bojarczak, P., Nowakowski, W., Łukasik, Z.: Application of R package to prediction of the time to failure of elements of automatic railway level crossing system. In: Proceedings of 22nd International Scientific Conference “Transport Means 2018”, Part II, pp. 879–882 (2018)
Ciszewski, T., Nowakowski, W.: Life-cycle cost analysis for rail control systems. In: Proceedings of the 17th International Scientific Conference Globalization and Its Socio-Economic Consequences, Part I, Rajecke Teplice, Slovakia, pp. 284–291 (2017)
Ciszewski, T., Nowakowski, W.: Interoperability of IT systems in the international railways. In: Proceedings of the 16th International Scientific Conference Globalization and Its Socio-Economic Consequences, Part I, Rajecke Teplice, Slovakia, pp. 312–320 (2016)
Hei, X., et al.: Design and implementation of a distributed railway signalling simulator. WIT Trans. Built Environ. 114, 81–88 (2010)
Kapur, K.C., Pecht, M.: Reliability Engineering. Wiley, Hoboken (2014)
Kornaszewski, M., Bojarczak, P., Pniewski, R.: Introduction of world innovative technologies to railway transport in Poland. In: Proceedings of the 16th International Scientific Conference Globalization and Its Socio-Economic Consequences, Part III, Rajecke Teplice, Slovakia, pp. 1036–1043 (2016)
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
Kuo, W., Zuo, M.J.: Optimal Reliability Modeling: Principles and Applications. Wiley, New York (2003)
Lewinski, A., Perzyński, T.: The reliability and safety of railway control systems based on new information technologies. Commun. Comput. Inf. Sci. 104, 427–433 (2010)
Łukasik, Z., Nowakowski, W.: Sieciowe narzędzia diagnostyczne systemów sterowania ruchem kolejowym. Technika Transportu Szynowego (TTS) 12/2015, pp. 2715–2718 (2015)
Łukasik, Z., Nowakowski, W., Ciszewski, T.: Bezpieczeństwo danych w diagnostyce systemów sterowania ruchem kolejowym. Autobusy Tech. Eksploat. Syst. Transp. 17(6), 264–267 (2016)
Łukasik, Z., et al.: A fault diagnostic methodology for railway automatics systems. Procedia Comput. Sci. 149, 159–166 (2019). ICTE in Transportation and Logistics 2018 (ICTE 2018)
Nowakowski, W.: Diagnostyka systemów automatyki kolejowej jako metoda poprawy bezpieczeństwa. Wydawnictwo Uniwersytetu Technologiczno-Humanistycznego w Radomiu, Seria Monografie, Nr 218, Radom (2018)
Nowakowski, W., Bojarczak, P., Łukasik, Z.: Verification and validation of railway control systems using an expert system. In: Kováčiková, T., Buzna, Ľ., Pourhashem, G., Lugano, G., Cornet, Y., Lugano, N. (eds.) INTSYS 2017. LNICST, vol. 222, pp. 43–50. Springer, Cham (2018). https://doi.org/10.1007/978-3-319-93710-6_5
Nowakowski, W., Bojarczak, P., Łukasik, Z.: Performance analysis of data security algorithms used in the railway traffic control systems. In: Proceedings of the International Conference on Information and Digital Technologies 2017, vol. 1, pp. 281–287. IEEE Xplore (2017). Slovak Computer Sciences and Informatics Journal
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
Nowakowski, W., Ciszewski, T., Młyńczak, J., Łukasik, Z.: Failure evaluation of the level crossing protection system based on fault tree analysis. In: Macioszek, E., Sierpiński, G. (eds.) TSTP 2017. LNNS, vol. 21, pp. 107–115. Springer, Cham (2018). https://doi.org/10.1007/978-3-319-64084-6_10
Ozturk, V., Rende, F.S., Ince, O., et al.: A general railway data model for simulations and simulators. Simul. Trans. Soc. Model. Simul. Int. 90(7), 833–849 (2014)
Rausand, M., Høyland, A.: System Reliability Theory: Models, Statistical Methods, and Applications. Wiley, Hoboken (2004)
Rogowski, A.: Compliance of the results of hypothesis testing with exponential distribution for selected statistical tests. Arch. Transp. 24(4), 531–551 (2012)
AMRandom. https://www.esbconsult.com/download.htm. Accessed 3 Jan 2018
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Nowakowski, W., Ciszewski, T., Łukasik, Z. (2019). The Software Framework for Simulating Railway Automation Systems Failures. 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_4
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