This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Monte Carlo Techniques for Correlated Variables in Crash Reconstruction

Journal Article
2009-01-0104
ISSN: 1946-3995, e-ISSN: 1946-4002
Published April 20, 2009 by SAE International in United States
Monte Carlo Techniques for Correlated Variables in Crash Reconstruction
Sector:
Citation: Daily, J., "Monte Carlo Techniques for Correlated Variables in Crash Reconstruction," SAE Int. J. Passeng. Cars – Mech. Syst. 2(1):345-358, 2009, https://doi.org/10.4271/2009-01-0104.
Language: English

References

  1. Brach R. M. Brach, R. M. Vehicle accident analysis and reconstruction methods . Warrendale, PA: SAE International 2005
  2. Bartlett W.D. et al. “Evaluating the uncertainty in various measurement tasks common to accident reconstruction,” SAE Technical Paper Series, no. 2002-01-0546
  3. Bartlett W. D. Fonda, A. “Evaluating uncertainty in accident reconstruction with finite differences,” SAE Technical Paper Series, no. 2003-01-0489
  4. Brach, R. M. “Uncertainty in accident reconstruction calculations,” SAE Technical Paper Series, no. 940722
  5. Fonda, A. “The effects of measurement uncertainty on the reconstruction of various vehicular collisions,” SAE Technical Paper Series, no. 2004-01-1220
  6. Lozia Z. Guzek, M. “Uncertainty study of road accident reconstruction-computational methods,” SAE Technical Paper Series, no. 2005-01-1195
  7. Wach W. Unarski, J. “Uncertainty of calculation results in vehicle collision analysis,” Forensic Science International 167 181 188 2007
  8. Ball, J. Danaher, D. Ziernicki, R. “Considerations for applying and interpreting Monte Carlo simulation analyses in accident reconstruction,” SAE Technical Paper Series, no. 2007-01-0741
  9. Bartlett, W. D. “Conducting Monte Carlo analysis with spreadsheet programs,” SAE Technical Paper Series, no. 2003-01-0487
  10. Daily J. S. Daily, J. G. “Multiple vehicle collisions: An application of the Monte Carlo method,” Special Problems in Traffic Crash Reconstruction (IPTM) 44 2004
  11. Kost G. Werner, S. “Use of Monte Carlo simulation techniques in accident reconstruction,” SAE Technical Paper Series, no. 940719
  12. Wood D. P. O’Riordain, S. “Monte Carlo simulation methods applied to accident reconstruction and avoidance analysis,” SAE Technical Paper Series, no. 940720
  13. Wach W. Unarski, J. “Determination of vehicle velocities and collision location by means of Monte Carlo simulation method,” SAE Technical Paper Series, no. 2006-01-0907
  14. Kimbrough, S. “Determining the relative likelihoods of competing scenarios of events leading to an accident,” SAE Technical Paper Series, no. 2004-01-1222
  15. Ayyub B. M. McCuen, R. H. Probability, Statistics, and Reliability for Engineers . Boca Raton: CRC Press LLC 1997
  16. Ang A. H.-S. Tang, W. H. Probability Concepts in Engineering. John Wiley & Sons second ed 2007
  17. Haldar A. Mahadevan, S. Probability, Reliability, and Statistical Methods in Engineering Design John Wiley & Sons 2000
  18. Haugen, E. B. Probabilistic Approaches to Design John Wiley & Sons 1968
  19. Dieck R. H. Measurement Uncertainty: Methods and Applications . Research Triangle Park, NC: Instrumentation, Systems, and Automation Society (ISA) 2002
  20. Weisstein, E. W. “Monte Carlo method.” From MathWorld–A Wolfram Web Resource. http://mathworld.wolfram.com/MonteCarloMethod.html 2006
  21. Helton, J. C. “Latin hypercube sampling and the propagation of uncertainty in analyses of complex systems,” Reliability Engineering & System Safety ” 81 23 69 2003
  22. Helton, J.C. Johnson, J. Sallaberry, C. Stor-lie, C. “Survey of sampling-based methods for uncertainty and sensitivity analysis,” Reliability Engineering & System Safety 35 2006
  23. Tsongos, N. G. “Crash3 technical manual.” 2008 http://www-nass.nhtsa.dot.gov/NASS/MANUALS/Crash3Man.pdf
  24. Daily, J. G. Shigemura, N. Daily, J. S. Fundamentals of Traffic Crash Reconstruction Jacksonville, Fla.: Institute of Police Technology and Management, University of North Florida 2006
  25. Tumbas N. S. Smith, R. A. “Measuring protocol for quantifying vehicle damage from an energy basis point of view,” SAE Technical Paper Series, no. 880072
  26. Brach R. M. Brach, R. M. “Crush energy and planar impact mechanics,” SAE Technical Paper Series, no. 980025
  27. Fonda, A. “Principles of crush energy determination,” SAE Technical Paper Series, no. 1999-01-0106
  28. Rose, N. Fenton, S. Ziernicki, R. “An examination of the Crash3 effective mass concept,” SAE Technical Paper Series, no. 2004-01-1181
  29. Strother, C. E. Woolley, R. L. James, M. B. Warner, C. Y. “Crush energy in accident reconstruction,” SAE Technical Paper Series, no. 860371
  30. Oberkampf W.L. et al. “Mathematical representation of uncertainty,” American Institute of Aeronautics and Astronautics (AIAA) 1645 1 22 2001

Cited By