Abstract
The European pedestrian regulations (formerly Directive 2003/102 and currently Regulation 2009/631 and recently modified by Commission Regulation [EU] No. 2011/459) have always approached the protection of lower extremities in pedestrian accidents with tests in the front part of the vehicle using rigid impactors. This approach offers a lot of advantage regarding the repeatability, robustness and reproducibility that these tests need but on the contrary decouple the injury occurrence through the different body areas. It is widely supported to approach pedestrian head protection and lower extremities protection in separate tests; however, there is not such consensus in decoupling pedestrian lower leg injuries from the upper leg injuries, especially in the case of high bumper vehicles. The objective of this paper is to look into the details of this close dependence through a set of simulations with THUMS 50th percentile male pedestrian finite element human model impacted by a wide set of high bumper vehicles. The analysis of both the kinematics and the injury occurrence in these scenarios has shown the strong coupling between the upper and lower leg injuries for this vehicle fleet, requiring therefore assessing both type of injuries at the same time.
Acknowledgements
The work presented in this paper has been performed under the Advanced PROtection Systems Project (APROSYS) funded under the Sixth Framework Programme of the UE, contract number TIP3-CT-2004-506503. The authors would like to give special thanks to Toyota Motor Europe for their valuable contribution for the validation of the LS-DYNA simplified model.