Author:
Kianifar Mohammed Reza,Campean Felician
Abstract
AbstractThe paper presents a multidisciplinary design optimisation strategy for car front-end profile to minimise head injury criteria across pedestrian groups. A hybrid modelling strategy was used to simulate the car- pedestrian impact events, combining parametric modelling of front-car geometry with pedestrian models for the kinematics of crash impact. A space filling response surface modelling strategy was deployed to study the head injury response, with Optimal Latin Hypercube (OLH) Design of Experiments sampling and Kriging technique to fit response models. The study argues that the optimisation of the front-end car geometry for each of the individual pedestrian models, using evolutionary optimisation algorithms is not an effective global optimization strategy as the solutions are not acceptable for other pedestrian groups. Collaborative Optimisation (CO) multidisciplinary design optimisation architecture is introduced instead as a global optimisation strategy, and proven that it can enable simultaneous minimisation of head injury levels for all the pedestrian groups, delivering a global optimum solution which meets the safety requirements across the pedestrian groups.
Publisher
Cambridge University Press (CUP)
Reference32 articles.
1. Parametric design and structural improvements to optimise frontal crashworthiness of a truck
2. Crash reconstruction of pedestrian accidents using optimization techniques
3. Sun G. , Lv X. , Fang J. , Gu X. and Li Q. (2015), “Reliability-based design optimization of vehicle front-end structure for pedestrian lower extremity protection,” in 11th World Congress on Structural and Multidisciplinary Optimisation.
4. Simulated evaluation of pedestrian safety for flat-front vehicles
5. Mendoza-Vázquez M. , Jakobsson L. , Davidsson J. , Brolin K. and Östmann M. (2014), “Evaluation of Thoracic Injury Criteria for THUMS Finite Element Human Body Model Using Real-World Crash Data”, in IRCOBI Conference 2014, pp. 528–541.