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International Journal of Crashworthiness Volume 23, 2018 - Issue 3
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Original Articles

Precise method of vehicle velocity determination basing on measurements of car body deformation–non-linear method for ‘Full Size’ vehicle class

P. KubiakDepartment of Vehicles and Fundamentals of Machine Design, Lodz University of Technology, Lodz, PolandCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-0225-9609
ORCID Icon,
A. KrzemieniewskiDepartment of Vehicles and Fundamentals of Machine Design, Lodz University of Technology, Lodz, Poland
,
K. LisieckiCentre for Mathematics and Physics, Lodz University of Technology, Lodz, Poland
,
J. SenkoInstitute of Vehicles, Warsaw University of Technology, Warsaw, Poland
&
A. SzoslandDepartment of Vehicles and Fundamentals of Machine Design, Lodz University of Technology, Lodz, Poland
Pages 302-310 | Received 07 Feb 2017, Accepted 14 May 2017, Published online: 30 May 2017

References

  • R. Brach, and R. Brach, Crush energy and planar impact mechanics for accident reconstruction, SAE Tech. Paper 980025, Society of Automotive Engineers, Milan, Italy, 1998. doi:10.4271/980025.
  • B.J. Campbell, The Traffic Accident Data Project Scale, in Proceedings of Collision Investigation Methodology Symposium, John W. Garrett Warrenton, VA, 1969, pp. 675–681.
  • J.R. Cromack, and S.N. Lee, Consistency study for vehicle deformation index, SAE Tech. Paper 740299, Society of Automotive Engineers, Detroid, MI, 1974. doi:10.4271/740299.
  • R. Faraj, J. Holnicki-Szulc, L. Knap, and J. Seńko, Adaptive inertial shock-absorber, Smart Mater. Struct. 25(3) (2016), p. 035031.
  • J.Y. Foret-Bruno, , X. Trosseille, J.Y. Le Coz, F. Bendjellal, C. Steyer, T. Phalempin, D. Villeforceix, P. Dandres, and C. Got, Thoracic injury risk in frontal car crashes with occupant restrained with belt load limiter, SAE Tech. Paper, Society of Automotive Engineers, Warrendale, PA, 1998. doi:10.4271/983166.
  • V. Grolleau, B. Galpin, A. Penin, and G. Rio, Modelling the effect of forming history in impact simulations: E valuation of the effect of thickness change and strain hardening based on experiments, Int. J. Crashworthiness 13(4) (2008), pp. 363–373.
  • B.C. Geigl, H. Hoschopf, H. Steffan, and A. Moser, Reconstruction of occupant kinematics and kinetics for real world accidents, Int. J. Crashworthiness 8(1) (2003), pp. 17–27.
  • P. Hight, T. Fugger Jr, and J. Marcosky, Automobile damage scales and the effect on injury analysis, SAE Tech. Paper 920602, Society of Automotive Engineers, Detroit, MI, 1992. doi:10.4271/920602.
  • J. Iraeus and M. Lindquist, Pulse shape analysis and data reduction of real-life frontal crashes with modern passenger cars, Int. J. Crashworthiness 20(6) (2015), pp. 535–546.
  • P. Kubiak, M. Wozniak, B. Кapпyшкин, P. Jozwiak, G. Ozuna, S. Madziara, M. Najbert, and A. Szosland, The Method of Determining Velocity by Measuring the Vehicle-Body Deformation Plane Approximation Method, Springer, Singapore, 2016. doi:10.1007/978-981-10-1088-0_4.
  • P. Kubiak, M. Wozniak, R. Jablonski, G. Ozuna, and P. De La Fuente, Determination of energy deformation with using NHTSA stiffness coefficient, Int. J. Innov. Res. Sci. Eng. Technol. 4(4) (2014), pp. 188–193.
  • P. Kubiak, M. Wozniak, B. Кapпyшкин, P. Jozwiak, G. Ozuna, S. Madziara, M. Najbert, and A. Szosland, Method of v elocity d etermination t hrough m easurements of the v ehicle b ody d eformation - - P lane a pproximation m ethod, Lecture Notes Eng. Comput. Sci. 2218 (2015), pp. 1091–1096. Issn 2078-0958.
  • P. Kubiak, K. Siczek, A. Dąbrowski, and A. Szosland, New high precision method for determining vehicle crash velocity based on measurements of body deformation, Int. J. Crashworthiness 21(6) (2016), pp. 532–541. doi:10.1080/13588265.2016.1194566.
  • P. Kubiak, P. Mierzejewska, and A. Szosland, Precise m ethod of v ehicle v elocity d etermination basing on m easurements of c ar b ody d eformation - - non-linear m ethod for l uxury v ehicle c lass, Int. J. Crashworthiness (2017). doi:10.1080/13588265.2017.1328763.
  • M. Lindquist, A. Hall, and U. Björnstig, Real world car crash investigations – A new approach, Int. J. Crashworthiness 8(4) (2003), pp. 375–384.
  • G.M. Mackay, J. Hill, S. Parkin, and J.A.R. Munns, Restrained occupants on the nonstruck side in lateral collisions, Accident Anal. Prev. 25(2) (1993), pp. 147–152. doi:10.1016/0001-4575(93)90054-Z.
  • B. McHenry, The A lgorithms of CRASH, Proceedings of the Southeast Coast Collision Conference, Cocoa Beach, FL, 2001.
  • R. McHenry, Computer program for reconstruction of highway accidents, SAE Tech. Paper 730980, Society of Automotive Engineers, Detroit, MI, 1973. doi:10.4271/730980.
  • R. McHenry, and B. McHenry, Effects of restitution in the application of crush coefficients, SAE Tech. Paper 970960, Society of Automotive Engineers, Detroit, MI, 1997. doi:10.4271/970960.
  • W.D. Nelson, The history and evolution of the collision deformation classification, SAE Tech. Paper, Society of Automotive Engineers, Detroit, MI, 1981. doi:10.4271/810213.
  • J.E. Neptune, Crush stiffness coefficients, restitution constants, and a revision of CRASH3 & SMAC, SAE Tech. Paper 980029, Society of Automotive Engineers, Detroit, MI, 1998. doi:10.4271/980029.
  • B. O'Neill, Preventing passenger vehicle occupant injuries by vehicle design – A historical perspective from IIHS, Traffic Inj. Prev. 10 (2009), pp. 113–126.
  • A. Prasad, CRASH3 damage algorithm reformulation for front and rear collisions, SAE Tech. Paper 900098, Society of Automotive Engineers, Detroit, MI, 1990. doi:10.4271/900098.
  • C. Riviere, P. Lauret, K.M. Ramsamy, and Y. Page, A Bayesian neural network approach to estimating the energy equivalent speed, Accident Anal. Prev. 38(2) (2006), pp. 248–259.
  • D. Sharma, S. Stern, J. Brophy, and E. Choi, An O verview of NHTSA's C rash R econstruction S oftware WinSMASH, Proceedings of the 20th International Conference on the Enhanced Safety of Vehicles, National Highway Traffic Safety Administration, Washington, DC, 2007.
  • A. Szosland, Fuzzy logic approach to four-wheel steering of motor vehicle, Int. J. Veh. Des. 24(4) (2000), pp. 350–359.
  • D. Siddall, T. Day, Detroit, MI, Updating the vehicle class categories, SAE Tech. Paper 960897, Society of Automotive Engineers, 1996. doi:10.4271/960897.
  • D. Vangi, Simplified method for evaluating energy loss in vehicle collisions, Accident Anal. Prev. 41(3) (2009), pp. 633–641. doi:10.1016/j.aap.2009.02.012.
  • D. Vangi and C. Cialdai, Evaluation of energy loss in motorcycle-to-car collisions, Int. J. Crashworthiness 19(4) (2014), pp. 361–370. doi:10.1080/13588265.2014.899072.
  • W. Wach and J. Unarski, Determination of vehicle velocities and collision location by means of Monte Carlo simulation method, SAE Tech. Paper 2006-01-0907, Society of Automotive Engineers, Detroit, MI, 2006. doi:10.4271/2006-01-0907.
  • D.P. Wood and C.K. Simms, Car size and injury risk: A model for injury risk in frontal collisions, Accident Anal. Prev. 34(1) (2002), pp. 93–99.
  • D.P. Wood, C. Glynn, and D. Walsh, Motorcycle-to-car and scooter-to-car collisions: S peed estimation from permanent deformation, Proc. Inst. Mech. Eng. D J. Automob. Eng. 223(6) (2009), pp. 737–756).
  • W. Wurong, X. Sun, and X. Wei, Integration of the forming effects into vehicle front rail crash simulation, Int. J. Crashworthiness 21(1) (2016), pp. 9–21.
  • A. Żuchowski, The use of energy methods at the calculation of vehicle impact velocity, Archiwum Motoryzacji 68, (2015, 85–111, 1234-754X).

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