Title :
Design of pedestrian detection systems for the prediction of car-to-pedestrian accidents
Author :
Wakim, Christophe F. ; Capperon, Stéphane ; Oksman, Jacques
Abstract :
There is a need for specification, implementation, and evaluation of electronic systems that could detect pedestrians in front of the vehicle and predict vehicle-to-pedestrian accidents. In this study, vehicle-to-pedestrian crashes were classified into eleven typical scenarios. The essential characteristics of vehicle-to-pedestrian accidents were identified. The statistical behaviors of the many different systems involved (vehicle, pedestrian, environment, and advanced driver assistance devices) were modeled. Then, Monte-Carlo simulations were carried out for critical vehicle and pedestrian road situations. The developed simulation tool allows the evaluation and validation of the performances of potential innovative systems.
Keywords :
Monte Carlo methods; automobiles; driver information systems; road accidents; statistical distributions; Monte Carlo simulations; car-to-pedestrian accident prediction; driver assistance devices; electronic systems; innovative systems; pedestrian detection system design; pedestrian road situations; statistical behaviors; vehicle-to-pedestrian crashes; Driver circuits; Life testing; Performance evaluation; Protection; Road accidents; Road safety; Vehicle crash testing; Vehicle detection; Vehicle driving; Vehicles;
Conference_Titel :
Intelligent Transportation Systems, 2004. Proceedings. The 7th International IEEE Conference on
Print_ISBN :
0-7803-8500-4
DOI :
10.1109/ITSC.2004.1398986
