Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
권호 표지

Methodology for Optimizing Parameters of Vehicle Safety Regulation on Pedestrian Protection

보행자-차량 충돌안전기준 매개변수 최적화 방법론 개발 및 적용

  • Published : 2006.09.01
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Abstract

Traffic accident involved with the vulnerable pedestrian is one of the significant concerns, which has higher possibility of fatality than any other accident types. Worldwide significant efforts have been made to establish a vehicle safety regulation, which is internationally agreed, in order to reduce pedestrian casualties in pedestrian-vehicle collisions. One of the key issues in deriving the regulation is how to effectively select the parameter values associated with the regulation. This study firstly develops a method to optimize parameter values. An optimizing problem in terms of maximizing safety benefits, which are life-saving effects by the regulation, is formulated. Extensive actual accident data analysis and simulations are conducted to establish several statistical models to be used in the proposed optimization procedure. A set of parameter values that can produce maximizing life-saving effects is presented as the outcome of this study. It is expected that the proposed method would play a significant role in determining parameters as a decision support tool toward ensuring better pedestrian safety.

Keywords

References

  1. 도로교통안전관리공단, 2004년판 교통사고 통계분석, 도로교통안전관리공단, 2004
  2. 도로교통안전관리공단, OECD회원국 교통사고 비교, 도로교통안전관리공단, 2005
  3. 김종혁, '컴퓨터 시뮬레이션을 이용한 보행자 충돌 선회특성에 관한 연구', 대한교통학회지, 제20권 제2호, pp.81-92, 2002
  4. S. Park, 'Numerical Analysis on the Variation Effect of Initial Condition for Lower Legformto- Bumper Impact in Pedestrian Protection for SUV,' Spring Conference Proceedings, KSAE, pp.640-644, 2005
  5. J. Yang, 'Correlation of Different Impact Conditions to the Injury Severity of Pedestrians in Real World Accidents,' 19th International Technical Conference, Enhanced Safety of Vehicle, pp.277-284, 2005
  6. 윤영한, 국내 차량형상에 대한 보행자 머리 및 다리의 상해값 분석, Maymo User Meeting, TNO Automotive Korea Ltd., 2005
  7. 유장석, '최적화방법을 이용한 보행자 충돌 사고 재현기법 개발', 대한교통학회지, 제20권 제3호, pp.105- 113. 2002
  8. J. Lee, 'Hood and Bumper Structure Design Methodology for Pedestrian Regulation,' Transactions of KSAE, Vol.13, No.3, pp.162-170. 2005
  9. K. Lee, 'The Study on Developing Active Hood Lift Mechanism for Decreasing Pedestrian Head Injury,' Spring Conference Proceedings, KSAE, pp.706-710, 2005
  10. K. Nagatomi, 'Development and Full-scale Dummy Tests of a Pop-up Hood System for Pedestrian Protection,' 19th International Technical Conference, Enhanced Safety of Vehicle, pp.212-216. 2005
  11. C. Kerkeling, 'Structural Hood and Hinge Concepts for Ppedestrian Pprotection,' 19th International Technical Conference, Enhanced Safety of Vehicle, pp.379-389, 2005
  12. Y. Ono, 'Introduction of pedestrian head protection performance test in J-NCAP,' 19th International Technical Conference, Enhanced Safety of Vehicle, pp.235-244. 2005
  13. D. N. Schmidt and D. A. Nagel, 'Pedestrian impact case study,' Proceeding of 15th Conference Association for Automotive Medicine, 1971
  14. H. J. Mertz, P. Prasad and A. L. Irwin, 'Injury Risk Curve for Children and Adults in Frontal and Rear Collisions,' SAE 97318, 1997