BioRID II manikin and human seating position in relation to car head restraint
Journal article, 2008

The objective of the study was to compare stature, weight and backset (the horizontal distance (x) between the back of the occupant's head and the front of the seam on top of the head restraint) of the Biofidelic Rear Impact Dummy (BioRID II) to the same variables on seated volunteers in a car. The following methods were used. Data were collected from 154 randomly selected Swedish individuals (78 males and 76 females). The volunteers and the BioRID II were examined in a Volvo V70 car, year model 2003, in three positions: driver (hands on steering wheel), front passenger (hands in lap) and rear passenger. The study results were as follows: the BioRID II was found to correspond approximately to a 35th-45th percentile male in stature (-2 cm), a 35th percentile male in weight (-7 kg), a 96th percentile female in stature (+11 cm) and a 69th percentile female in weight (+8 kg). The BioRID II was designed to represent a male driver. The BioRID II backset corresponded well with the average of the male drivers of its stature. Larger deviations in backset were found for other volunteer sizes and other seating positions. The average backsets were 26 mm for females and 63 mm for males in the front seat positions. The volunteers had larger backset in the driver position (60 mm) than in the front passenger position (29 mm). Smaller differences in backset were seen between the BioRID II and the volunteers in the rear passenger position. This study provides data regarding the occupant size coverage of BioRID II, and unique data regarding backset, of different occupant positions in the car; driver with hands on steering wheel, and front and rear passengers with hands in lap, for female and male in relation to the BioRID II dummy.

backset

gender

stature

weight

BioRID II

position

Author

B. Jonsson

Umeå University

Mats Svensson

Chalmers, Applied Mechanics, Vehicle Safety

Astrid Linder

The Swedish National Road and Transport Research Institute (VTI)

Ulf Björnstig

Umeå University

International Journal of Crashworthiness

1358-8265 (ISSN) 17542111 (eISSN)

Vol. 13 5 479-485

Subject Categories

Mechanical Engineering

DOI

10.1080/13588260802120926

More information

Latest update

4/18/2018