EVALUATION OF THE EFFECTIVENESS OF PEDESTRIAN PROTECTION SYSTEMS THROUGH IN-DEPTH ACCIDENT INVESTIGATION, RECONSTRUCTION AND SIMULATION Manager, Innovation, Applus+ IDIADA

Format:

Conference/Event

Author/Creator:

Barrios, Jose Manuel, author.

Conference Name:

SAE Brasil 2009 Congress and Exhibit (2009-10-06 : Sao Paulo, Brazil)

Language:

English

Physical Description:

1 online resource

Place of Publication:

Warrendale, PA SAE International 2009

Summary:

Around 15% of traffic accident casualties in Europe are pedestrians. To date, most of the studies carried out only provide statistical information on the problem and little study in-depth the countermeasures which might correct it.There are many studies concerning pedestrian protection, which can be grouped into pedestrian modelling', biomechanical limits for pedestrians' and statistical analysis for pedestrian accidents'. Despite these studies, there is no predictive analysis of the benefits of pedestrian protection systems based on their intrinsic capabilities applied to a real accident sample.This paper describes a methodology for the evaluation of pedestrian protection systems based on the analysis of a wide sample of urban pedestrian accidents. All of them are analysed in-depth and reconstructed with PC-Crash. The effects of the frontal structure of the vehicles and several active systems, such as BAS and Pedestrian Detection Systems, are evaluated.The paper includes the description of the methodology followed for a sample of approximately 140 pedestrian urban accidents in three cities in Spain (Madrid, Barcelona and Zaragoza) and the corresponding reconstructions done with PC-Crash. Then, a methodology to simulate the passive and active improvements (including pedestrian friendly structure, BAS and pedestrian detection system) is defined and applied to all the sampled accidents. The results of these new simulations are used to evaluate the benefits of the systems. The main conclusions are discussed, taking into account the limitations of the study, which basically lie in the modelling of the pedestrian detection system.The methodology proposed in this paper could be applied to other vehicle safety devices for the evaluation of their effectiveness, based on the analysis of real accidents. All the results presented here come from a project partly funded by the Spanish Ministry of Industry

Notes:

Vendor supplied data

Publisher Number:

2009-36-0398

Access Restriction:

Restricted for use by site license