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Assessment of H-Model Using Volunteer Tests
ISSN: 0148-7191, e-ISSN: 2688-3627
Published June 17, 2003 by SAE International in United States
Annotation ability available
The validity of the full human body model in PAM-CRASH, called the H-Model, was assessed using human volunteers subject to either frontal or rear impact conditions. The frontal impact condition was simulated using a HYGE sled with a belted volunteer under a pulse with a peak acceleration of 9.8 g. The rear impact condition was also simulated using a HYGE sled, but with unbelted volunteers under a relatively soft pulse with peak acceleration about 3.8 g. The sled tests were modeled using PAM-CRASH. Occupant kinematics of the H-Model in the mid-sagittal plane were obtained and compared to volunteer responses.
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CitationDeng, B. and Wang, J., "Assessment of H-Model Using Volunteer Tests," SAE Technical Paper 2003-01-2220, 2003, https://doi.org/10.4271/2003-01-2220.
- U.S. Code of Federal Regulations 49 CFR 571.208. Standard No. 208, Front Impact Protection Office of the Federal Register, National Archives and Records Administration October 1 2001
- U.S. Code of Federal Regulations 49 CFR 571.214. Standard No. 214, Side Impact Protection Office of the Federal Register, National Archives and Records Administration October 1 2001
- Zhang L. Yang K. Dwarampudi R. Omori K. Li T. Kun C. Hardy W.N. Khalil T.B. King A.I. Recent Advances in Brain Injury Research: A New Human Head Model Development and Validation Stapp Car Crash Journal 45 369 393 2001
- Deng Yih-Charng Kong Wayne Ho Henjen Development of a Finite Element Human Thorax Model for Impact Injury Studies SAE Paper 1999-01-0715 1999
- Takahashi Yukou Kikuchi Yuji Konosu Atsuhiro Ishikawa Hirotoshi Development and Validation of the Finite Element Model for the Human Lower Limb of Pedestrians Stapp Car Crash Journal 44 335 355 2000
- van Hoof Jack Happee Riender Meijer Riske Bours Roy MADYMO FE Human Body Model for Automotive Impact Conditions JSAE Spring Conference Yokohama, JSAE 20015336 2001
- Oshita Fuminori Omori Kiyoshi Nakahira Yuko Miki Kazuo Development of a Finite Element Model of the Human Body 7th International LS-DYNA Users Conference 2002
- Choi Hyung-Yun Eom Hong-Won Kho Soon-Tak Lee In-Hyeok Finite Element Human Model for Crashworthiness Simulation SAE 1999-01-1906
- PAM-SAFE Version 2001
- Testing information from John Buhrman at Wright-Patterson Air Force Base 2002
- Meijer Riske Ono Koshiro Van Hoof Jack Kaneoka Koji Analysis of Rear End Impact Response Using Mathematical Human Modeling and Volunteer Tests JSAE Spring Conference Yokohama, JSAE 20015357 2001