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2018 | z. 98 | 211--221
Tytuł artykułu

Verification of road accident simulation created with the use of PC-Crash software

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Warianty tytułu
Języki publikacji
The paper discusses an example of PC-Crash software usage for road accident reconstruction. Only a segment of the software capabilities is presented, together with a comparison of the visualized 3D simulation with the actual collision video record.

Opis fizyczny
Bibliogr. 35 poz.
  • 1. EVU Unfallrekonstruktions-Programme, Bediengungshaandbuch, Auslauf – Analyse rückwärts. EVU, Wiesbaden 1991.
  • 2. Marquard E. 1968. “Fortschritte in der Berechnung von Fahrzeung-Zusammenstössen”. ATZ 3.
  • 3. Institute of Forensic Research. 2011. Road Accidents. Guidelines for Expert Witnesses. Cracow: Institute of Forensic Research Publishers. ISBN 83-87425-32-X
  • 4. Wach Wojciech. 2009. Road Accidents Simulation with PC-Crash Software. Cracow: Institute of Forensic Research Publishers. ISBN 83-87425-23-0.
  • 5. Wach Wojciech. 2014. Structural Creditability of Road Accidents Reconstructions. Cracow: Institute of Forensic Research Publishers. ISBN 83-87427-14-1.
  • 6. Wach Wojciech. 2009. “Reliability in establishing road accident cause”. Paragraf na drodze (Special Edition): 115-133. ISSN 1501-3520.
  • 7. Wach Wojciech. 2011. “Verification of vehicle collision simulation in respect of modelling uncertainty”. Paragraf na drodze 2: 43-63. ISSN 1505-3520.
  • 8. Zębala Jakub, Wojciech Wach, Piotr Ciępka, Robert Janczur, Stanisław Walczak. 2009. “Verification of ABS models applied in computer program PC-CRASH”. Paragraf na drodze (Special Edition): 151-171. ISSN 1501-3520.
  • 9. Zębala Jakub, Wojciech Wach, Piotr Ciępka, Robert Janczur,. 2013. “Simulation in PC-CRASH program of car motion with reduced tyre pressure”. Paragraf na drodze (Special Edition): 309-323. ISSN 1505-3520.
  • 10. Zębala Jakub. 2017. “Simulation, in the PC-CRASH program, of movement of a car with no tire pressure in one rear wheel”. Paragraf na drodze (Special Edition): 337-346. ISSN 1505-3520.
  • 11. Wittek Adam Marek, Damian Gąska, Bogusław Łazarz, Tomasz Matyja. 2014. “Automotive stabilizer bar – stabilizer bar strength calculations using FEM, ovalization of radial areas of tubular stabilizer bars”. Mechanika 20(6): 535-542. ISSN 1392-1207.
  • 12. Gąska Damian, Tomasz Haniszewski, Jerzy Margielewicz. 2017. “I-beam girders dimensioning with numerical modelling of local stresses in wheel-supporting flanges”. Mechanika 23(3): 347-352. ISSN 1392-1207.
  • 13. Gąska Damian, Czesław Pypno. 2011. “Strength and elastic stability of cranes in aspect of new and old design standards”. Mechanika 17(3): 226-231. ISSN 1392-1207.
  • 14. Ogiela Lidia, Ryszard Tadeusiewicz, Marek Ogiela. 2006. “Cognitive analysis in diagnostic DSS-type IT systems”. In Proceedings of the Eighth International Conference on Artificial Intelligence and Soft Computing (ICAISC 2006). Zakopane, Poland. 25-29 June 2006. Book Series: Lecture Notes in Computer Science Vol. 4029: 962-971.
  • 15. Ogiela Lidia, Ryszard Tadeusiewicz, Marek Ogiela. 2006. “Cognitive computing in intelligent medical pattern recognition systems”. In D.S. Huang, K. Li, G. Irwin, eds., International Conference on Intelligent Computing: Intelligent Control and Automation. Kunming, China. 16-19 August 2006. Book Series: Lecture Notes in Control and Information Sciences Vol. 344: 851-856.
  • 16. Ogiela Marek, Ryszard Tadeusiewicz, Lidia Ogiela. 2005. “Intelligent semantic information retrieval in medical pattern cognitive analysis”. In O. Gervasi, M.L. Gavrilova, V. Kumar et al., eds., Proceedings of the International Conference on Computational Science and Its Applications (ICCSA 2005): Vol. 4. Singapore. 9-12 May 2005. Book Series: Lecture Notes in Computer Science Vol. 3483: 852-857.
  • 17. Tadeusiewicz Ryszard, Lidia Ogiela, Marek Ogiela. 2008. “The automatic understanding approach to systems analysis and design”. International Journal of Information Management 28(1): 38-48.
  • 18. Smyczyńska U., J. Smyczyńska, M. Hilczer, R. Stawerska, R. Tadeusiewicz, A. Lewiński. 2018. “Pre-treatment growth and IGF-I deficiency as main predictors of response to growth hormone therapy in neural models”. Endocrine Connections 7(1): 239-249. DOI: 10.1530/EC-17-0277.
  • 19. Tadeusiewicz Ryszard. 2015. “Neural networks in mining sciences – general overview and some representative examples”. Archives of Mining Sciences 60(4): 971-984. DOI: 10.1515/amsc-2015-0064.
  • 20. Czech Piotr. 2017. “Physically disabled pedestrians – road users in terms of road accidents”. In E. Macioszek, G. Sierpiński, eds., Contemporary Challenges of Transport Systems and Traffic Engineering. Lecture Notes in Network Systems Vol. 2: 157-165. Cham, Switzerland: Springer. ISSN: 2367-3370. DOI:
  • 21. Czech Piotr. 2017. “Underage pedestrian road users in terms of road accidents”. In G. Sierpiński, ed., Intelligent Transport Systems and Travel Behaviour. Advances in Intelligent Systems and Computing Vol. 505: 75-85. Cham Switzerland: Springer. ISSN: 2194-5357. DOI:
  • 22. Yannis G., P. Papantoniou, M. Nikas 2017. “Comparing young drivers speeding behavior at rural areas in normal and simulation conditions”. Transport\Transporti Europei 66(4)5: 1-13. ISSN: 1825-3997.
  • 23. Bigoš P., J. Kuľka, M. Mantič, M. Kopas. 2015. “Comparison of local stress values obtained by two measuring methods on blast furnace shell”. Metalurgija 54(1): 101-104.
  • 24. Czech P., Mikulski J. 2014. “Application of Bayes Classifier and Entropy of Vibration Signals to Diagnose Damage of Head Gasket in Internal Combustion Engine of a Car”. Telematics - Support For Transport. Communications in Computer and Information Science 471: 225-232.
  • 25. Grega R., J. Homisin, M. Puskar, J. KuI’ka, J. Petroci, B. Konecny, B. Krsak. 2015. “The chances for reduction of vibrations in mechanical. System with low-emission ships combustion engines”. International Journal of Maritime Engineering 157(A4): 235-240. DOI: 10.3940/rina.ijme.2015.a4.335.
  • 26. Harachová D. 2016 “Deformation of the elastic wheel harmonic gearing and its effect on toothing”. Grant Journal Vol. 5, No. 1: 89-92, ISSN: 1805-0638.
  • 27. Homišin J., P. Kaššay, M. Puškár, R. Grega, J. Krajňák, M. Urbanský, M. Moravič. 2016. “Continuous tuning of ship propulsion system by means of pneumatic tuner of torsional oscillation”. International Journal of Maritime Engineering: Transactions of the Royal Institution of Naval Architects 158(A3): 231-238. ISSN: 1479-8751. DOI: 10.3940/rina.ijme.2016.a3.378.
  • 28. Krajnák J., J. Homišin, R. Grega, M. Urbanský. 2016. “The analysis of the impact of vibrations on noisiness of the mechanical system”. Diagnostyka 17(3): 21-26.
  • 29. Kulka J., E. Faltinová, M. Kopas, M. Mantič. 2016. “Diagnostics and optimisation of crane track durability in metallurgical plant”. Diagnostyka 17(3): 41-46.
  • 30. Medvecká-Beňová S. L. Miková, P. Kaššay. 2015. “Material properties of rubber-cord flexible element of pneumatic flexible coupling”. Metalurgija 54(1): 194-196.
  • 31. Puskar Michal, Michal Fabian, Jaroslava Kadarova, Peter Blist’an, Melichar Kopas. 2017. “Autonomous vehicle with internal combustion drive based on the homogeneous charge compression ignition technology”. International Journal of Advanced Robotic Systems 14(5). DOI: 10.1177/1729881417736896.
  • 32. Puskar Michal, Melichar Kopas, Jaroslava Kadarova. 2017. “Ecological analysis related to creation of gaseous emissions within transport focused on fulfilment of the future emission standards”. Transportation Research Part D: Transport and Environment 57: 413-421. DOI: 10.1016/j.trd.2017.10.007.
  • 33. Vojtková Jarmila. 2016. “Benefits of application of spur gears with asymmetric profile”. Pomiary Automatyka Robotyka 2(20): 31-35. DOI: 10.14313/PAR_220/31.
  • 34. Zelić A., N. Zuber, R. Šostakov. 2018. “Experimental determination of lateral forces caused by bridge crane skewing during travelling”. Eksploatacja i Niezawodnosc – Maintenance and Reliability 20(1): 90-99. DOI: ISSN: 1507-2711.
  • 35. Zuber N., R. Bajrić. “Application of artificial neural networks and principal component analysis on vibration signals for automated fault classification of roller element bearings”. Eksploatacja i Niezawodność - Maintenance and Reliability 18(2): 299-306. DOI: 10.17531/ein.2016.2.19. ISSN: 1507-2711.
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