Title: A new optimisation approach for the driver restraint system for the frontal impact of a mini-bus

Authors: Lin Yi, Liu Hailin, Zhang Junyuan

Addresses: Beijing Institute of Technology, PR China. ' Pan Asia Technical Automotive Centre, PR China. ' Jilin University, PR China

Abstract: Occupant restraint system design is very important for passenger vehicles to improve passive safety performance. In this paper, an optimisation approach using MADYMO simulation is put forward for occupant restraint system design. Based on multi-body dynamics theory and the finite element method, an occupant restraint system model is built for the driver protection in a mini-bus subject to frontal impact. The model validation is also considered against the full size impact test. Then, a new parameter optimisation approach, called the three-step optimisation method, is proposed and applied to the model established. Simulations are conducted to investigate the system performance. The results indicate significant safety performance improvements for the mini-bus occupant restraint system.

Keywords: occupant restraint systems; optimisation; simulation; driver restraint systems; frontal impact; minibus; vehicle safety; multibody dynamics; finite element method; FEM; vehicle crashes; vehicle accidents.

DOI: 10.1504/IJVSMT.2008.020616

International Journal of Vehicle Systems Modelling and Testing, 2008 Vol.3 No.1/2, pp.14 - 24

Published online: 03 Oct 2008 *

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