Reliability and operating properties of the electronic safety system used for unintended electromagnetic radiation sources
| 1 | Politechnika Warszawska Wydział Transportu |
| 2 | Military University of Technology, Faculty of Electronic |
CORRESPONDING AUTHOR
Online publish date: 2018-09-24
Publish date: 2018-09-24
Submission date: 2018-06-15
Final revision date: 2018-07-15
Acceptance date: 2018-09-21
Diagnostyka 2018;19(4):45–50
KEYWORDS
TOPICS
ABSTRACT
The advanced electronic devices used in the safety systems function in a particular environment depending on the facility in which they are installed. Typically, quite diverse operating conditions occur. Thus, the proper functioning of electronic systems depends not only on the reliability of individual components constituting the system, but also on the level of electromagnetic interference that can be generated by external sources. The article presents selected issues related to the impact of electromagnetic interference on electronic safety systems. In this regard, the measurements were taken into account for a facility over which there were two power lines with a 110 kV rated voltage, while a power line with a 220 kV voltage was located in the near (10 m) vicinity. The reliability and operating analysis that takes into account the electromagnetic interference was carried out. It allows to assess various types of solutions that can be implemented in order to minimise the impact of electromagnetic interference on the operation of the electronic safety systems.
REFERENCES (22)
1.
Charoy A. Interference in electronic equipment. Warsaw: WNT; 1999. Polish.
2.
Duer S, Zajkowski K, Płocha I, Duer R. Training of an artificial neural network in the diagnostic system of a technical object. Neural Computing & Applications 2013; 22(7): 1581-1590. https://doi.org/10.1007/s00521....
3.
Dyduch J, Moczarski J. Podstawy eksploatacji systemów sterowania ruchem kolejowym. Radom: Wydawnictwo UTH Radom, 2015. Polish.
4.
Dziubinski M, Drozd A, Adamiec M, Siemionek E. Electromagnetic interference in electrical systems of motor vehicles. IOP Conference Series-Materials Science and Engineering. 2016; 148. https://doi.org/10.1088/1757-8....
5.
Laskowski D, Łubkowski P, Pawlak E, Stańczyk P. Anthropotechnical systems reliability. In: the monograph „Safety and Reliability: Methodology and Applications - Proceedings of the European Safety and Reliability Conference ESREL 2014”. London: CRC Press/Balkema, 2015.
6.
Loi BT, Yong R. Electromagnetic compatibility - railway radiated electromagnetic emission to environment and the control methodologies. 7th Asia Pacific International Symposium on Electromagnetic Compatibility, Shenzhen, China, 2016. https://doi.org/10.1109/APEMC.....
7.
Młyńczak J, Hejczyk T, Wszołek B, Gałuszka A, Surma D, Ogaza R, Burdzik R. Passenger safety and information module in intelligent integrated traffic management system. Vibroengineering Procedia 2015; 6: 234–237.
8.
Ogunsola A, Mariscotti A. Electromagnetic compatibility in railways. Analysis and management. Springer-Verlag; 2013.
9.
Ott HW. Electromagnetic compatibility engineering. Wiley; 2009.
10.
Paś J. Operation of electronic transportation systems. Radom: Publishing House University of Technology and Humanities; 2015. Polish.
11.
Paś J, Rosiński A. Selected issues regarding the reliability-operational assessment of electronic transport systems with regard to electromagnetic interference. Eksploatacja i Niezawodnosc – Maintenance and Reliability 2017; 19(3): 375-381. https://doi.org/10.17531/ein.2....
12.
Rosiński A. Modelling the maintenance process of transport telematics systems. Warsaw: Publishing House Warsaw University of Technology; 2015. Polish.
13.
Siergiejczyk M, Krzykowska K, Rosiński A, Grieco LA. Reliability and viewpoints of selected ITS system. In: Selvaraj H, Chmaj G, Zydek D, eds. Proceedings 25th International Conference on Systems Engineering ICSEng IEEE, Conference Publishing Services (CPS), 2017: 141-146. https://doi.org/10.1109/ICSEng....
14.
Siergiejczyk M, Krzykowska K, Rosiński A. Reliability-exploitation analysis of electronic power systems used for airport security. In: Čepin M, Briš R, eds. Safety and Reliability – Theory and Applications. London: CRC Press Taylor & Francis Group; 2017: 649-654.
15.
Siergiejczyk M, Paś J, Rosiński A. Issue of reliability–exploitation evaluation of electronic transport systems used in the railway environment with consideration of electromagnetic interference. IET Intelligent Transport Systems 2016; 10(9): 587-593. https://doi.org/10.1049/iet-it....
16.
Stawowy M. Comparison of uncertainty models of impact of teleinformation devices reliability on information quality. In: “Proceedings of the European Safety and Reliability Conference ESREL 2014”, CRC Press/Balkema 2015: 2329-2333.
17.
Stawowy M, Kasprzyk Z. Identifying and simulation of status of an ICT system using rough sets. In: Zamojski W, Mazurkiewicz J, Sugier J, Walkowiak T, Kacprzyk J, eds. Proceedings of the Tenth International Conference on Dependability and Complex Systems DepCoS-RELCOMEX, given as the monographic publishing series – „Advances in intelligent systems and computing”. 2015, 265: 477-484. https://doi.org/10.1007/978-3-....
18.
Sumiła M, Miszkiewicz A. Analysis of the problem of interference of the public network operators to GSM-R. In: „Tools of Transport Telematics”, given as the monographic publishing series – „Communications in Computer and Information Science”. 2015; 531: 76-82.
19.
Valderas D, Mesa I, Adín I, Lehmann H, Lancaster G, Stark O, Baldauf W, del Portillo J. Modelling Eddy Current Brake emissions for electromagnetic compatibility with signal ing devices in high speed railways. IEEE Transactions on Vehicular Technology 2017; 66(11). https://doi.org/10.1109/TVT.20....
20.
Valis D, Pietrucha-Urbanik K. Utilization of diffusion processes and fuzzy logic for vulnerability assessment. Eksploatacja i Niezawodnosc – Maintenance and Reliability 2014; 16(1): 48-55.
21.
Vašata J, Doleček R. Electromagnetic compatibility and lightning current impacts in the railway equipment buildings. In: 26th Conference Radioelektronika 2016, Košice, Slovak Republic. https://doi.org/10.1109/RADIOE....
22.
Wierzbicki S. Diagnosing microprocessor controlled systems. Teka Komisji Motoryzacji i Energetyki Rolnictwa. 2006;VI:183-188.
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