Development of Performance Specifications for the Occupant Classification Anthropomorphic Test Device (Ocatd) 2001-06-0063
Advanced airbag systems use a variety of sensors to classify vehicle occupants so that the airbag deployment can be modulated accordingly. One potential input to such systems is the distribution of pressure applied to the seat surface by the occupant. However, the development of such systems is hindered by the lack of suitable human surrogates. The OCATD program has developed two new surrogates for advanced airbag applications representing a small adult woman and a six-year-old child. This paper describes the development of performance specifications for the OCATDs based on a study of the seat surface pressure distributions produced by vehicle occupants. The pressure distributions of sixty-eight small women and children ranging in body weight between 23 and 48 kg were measured on four seats in up to twelve postures per seat. The data were analyzed to determine the parameters of the pressure distribution that best predict occupant body weight. Target values for these parameters were then developed for the two OCATD sizes. Measurements of pressure distributions produced by the OCATDs showed good agreement between the human-derived targets and the OCATD performance.
Author(s):
Matthew P. Reed, Sheila M. Ebert, Lawrence W. Schneider
Affiliated:
University of Michigan Transportation Research Institute
Pages: 9
Event:
International Technical Conference on Enhanced Safety of Vehicles
Related Topics:
Anthropometric test devices
Vehicle occupants
Airbag systems
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