전자식 X-Y 이축 가속도 센서를 이용한 오프셋 및 경사 충돌에 대한 충돌 판별 성능 개선에 관한 연구

A Study on Improvement of Crash Discrimination Performance for Offset and Angular Crash Events Using Electronic X-Y 2-Axis Accelerometer

  • 박서욱 (한국과학기술원 기계공학과) ;
  • 전만철 (㈜ 현대 오토넷 Safety Electronics팀)
  • 발행 : 2003.01.01

초록

In today's design trend of vehicle structure, crush zone is fiequently reinforced by adding a box-shaped sub-frame in order to avoid an excessive deformation against a high-speed offset barrier such as EU Directive 96/97 EC, IIHS offset test. That kind of vehicle structure design results in a relatively monotonic crash pulse for airbag ECU(Electronic Control Unit) located at non-crush zone. As for an angular crash event, the measured crash signal using a single-axis accelerometer in a longitudinal direction is usually weaker than that of frontal barrier crash. Therefore, it is not so easy task to achieve a satisfactory crash discrimination performance for offset and angular crash events. In this paper, we introduce a new crash discrimination algorithm using an electronic X-Y 2-axis accelerometer in order to improve crash discrimination performance especially for those crash events. The proposed method uses a crash signal in lateral direction(Y-axis) as well as in longitudinal direction(X-axis). A crash severity measure obtained from Y-axis acceleration is used to improve the discrimination between fire and no-fire events. The result obtained by the proposed measure is logically ORed with an existing algorithm block using X-axis crash signal. Simulation and pulse injection test have been conducted to verify the performance of proposed algorithm by using real crash data of a 2,000cc passenger vehicle.

키워드

참고문헌

  1. FMVSS 208 NHTSA
  2. EU Directive 96/79 EC EEVC
  3. Trans. of the Korean Society of Automotive Engineers v.8 no.6 New Crash Discrimination Algorithm and Accelerometer Locations Hyun-yong Jeong;Young-Hak Kim
  4. SAE 1999-01-1326 Determination of Crush Zone Severity Using a Ball-In-Tube and Accelerometer Sensing System (BASS) T. Gioutsos;D. Tabar
  5. Trans. of the Korean Society of Automotive Engineers v.8 no.6 A Study on the Airbag Crash Recognition Algorithm for Vehicle Impact Modes and Speeds Kian Sung;Changsik Lee
  6. Trans. of the Korean Society of Automotive Engineers v.7 no.3 Crash Discrimination Algorithm for Airbag Electronic Single-point Sensor Seo Wook Park;Man Cheol Jeon
  7. Autumn Conference Proceedings of the Korean Society of Automotive Engineers Dual Threshold Airbag Control Algorithm by using Seat-belt Status Detection Seo Wook Park;Man Cheol Jeon
  8. 4th Internal Symposium and Exhibition on Sophisticated Car Occupant Safety Systems Expanding Restraint Sensing System Discrimination C. Boran(et al.)
  9. SAE 880724 Problems in Design and Engineering of Airbag Systems D. S. Breed;V. Castelli