In vehicle collision accidents, an occupant restraint system (ORS) is crucial to protect the human body from injury, and it commonly involves a large number of design parameters. However, it is difficult to quantify the importance of design parameters and determine them in the ORS design process. Therefore, an approach of the combination of the proposed approximate sensitivity analysis (SA) method and interval multi-objective optimization design is presented to reduce craniocerebral injury and improve ORS protection performance. First, to simulate the vehicle collision process and obtain the craniocerebral injury responses, the integrated finite element model of vehicle-occupant (IFEM-VO) is established by integrating the vehicle, dummy, seatbelt, airbag, etc. Then, the proposed SA method is used to quantify the importance ranking of design parameters and ignore the effects of some non-essential parameters. In the SA process, the Kriging meta-model characterizing the relationships between design parameters and injury responses are fitted to overcome the time-consuming disadvantage of IFEM-VO. Finally, according to the results of SA, considering the influence of uncertainty, an interval multi-objective optimization design is implemented by treating the brain injury criteria as the objectives and regarding the head injury criterion and rotational injury criterion as the constraints. Comparison of the results before and after optimization indicates that the maximum values of the translational and rotational accelerations are greatly reduced and the ORS protection performance is significantly improved. This study provides an effective way to improve the protection performance of ORS under uncertainty.
Sensitivity analysis and interval multi-objective optimization for an occupant restraint system considering craniocerebral injury
Contributed by the Design Automation Committee of ASME for publication in the Journal of Mechanical Design. Manuscript received January 27, 2019; final manuscript received July 4, 2019; published online xx xx, xxxx. Assoc. Editor: Xiaoping Du.
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Liu, Q., Wu, X., Han, X., Liu, J., Zhang, Z., and Guo, S. (July 24, 2019). "Sensitivity analysis and interval multi-objective optimization for an occupant restraint system considering craniocerebral injury." ASME. J. Mech. Des. doi: https://doi.org/10.1115/1.4044328
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