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In order to investigate pedestrian injury mechanism by representing whole body kinematics of a pedestrian, a pedestrian dummy (POLAR II) has been developed. Previous studies indicated that the original pelvis design needed to be modified from the comparison of POLAR II and PMHS (Post Mortem Human Subject) responses in a pedestrian impact test with a SUV (Sports Utility Vehicle). In addition, according to the results of an in-depth investigation of pedestrian versus SUV or mini-van accidents in the US, pelvis fracture was found to be most frequent in AIS 2+ pelvis and lower limb injuries. Based on these findings, the POLAR II pelvis was modified for improved biofidelity. The modified pelvis design incorporated the flexible ilium (polyacetal resin) and pubic symphysis (rubber material) as opposed to the original pelvis cast in aluminum. The modified pelvis responses were verified against published isolated pelvic PMHS test results in lateral compression of the pelvis.

In order to investigate injury mechanisms to the pedestrian pelvis and lower limb, the authors have developed a finite element (FE) human model for the pedestrian pelvis and lower limb in their previous studies. Quasi-static and dynamic responses of the pelvis and lower limb components were individually validated against recently published experiments. However, the pelvis and lower limb models have not been validated at the assembly level under impact conditions that better represent an actual car-pedestrian impact situation. In this study, the pelvis and lower limb models were assembled in a standing position, and an upper body model with rigid body segments connected by mechanical joints was integrated into the FE pelvis and lower limb model assembly to create a full-body pedestrian model. The model was subjected to car impacts at 40 km/h to represent published car-to-pedestrian impact experiments using human subjects.