Modeling the influence of safety aid market penetration on traffic safety: case of collision warning system for powered two-wheelers

Barbo, Matej; Rodič, Blaž

doi:10.1016/j.aap.2023.107240

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Journal Article

Modeling the influence of safety aid market penetration on traffic safety: case of collision warning system for powered two-wheelers
Citation	Barbo M, Rodič B. Accid. Anal. Prev. 2023; 192: e107240.
Copyright	(Copyright © 2023, Elsevier Publishing)
DOI	10.1016/j.aap.2023.107240
PMID	37572423
Abstract	Every year, several thousand powered two-wheeler (PTW) i.e., motorcycle, moped and scooter drivers and passengers die in traffic accidents in the EU. Despite the much higher risk of death and injuries for PTW vs. car users, there is a three-fold lack regarding collision warning technologies for PTWs: lack of research, lack of regulation and lack of availability in the market. Many injuries occur in rear-end collisions, when PTW is struck from the rear by another vehicle. In this paper we present a hybrid, multi-method simulation model that allows simulation of various situations in which a vehicle may collide with the rear end of a PTW. We have used this model to estimate the potential impact of market penetration of a novel PTW ESS + RECAS system, named MEBWS (Motorcycle Emergency Braking Warning System), within the EU on the number of traffic accidents and their consequences, which would contribute to the EU "Vision Zero" goal: "reduce road deaths to almost zero by 2050". MEBWS has been developed at the Faculty of Information Studies in Novo mesto and patented. Simulation results using EU traffic accident data show that with 100% market penetration of the MEBWS system in the EU, the total number of PTW rear-end collisions would decrease by 29.50%. This reduction would result in fewer injuries and a decrease in economic crash costs by €43,145,172, according to the standard EU methodology. With the MEBWS system enabled, the number of traffic accidents in the standard rear-end collision emergency braking scenarios Moto, normal drive, Moto, emergency stop and Moto, not moving decreased by 33.15%, 27.76% and 28.76%, respectively. In cases where the collision could not be prevented due to slow response of the following driver or very high relative speed of the vehicles, MEBWS reduced the relative speed at impact, resulting in a reduction of injury severity by up to 11.198%, as estimated by the amount of kinetic energy released at collision. Language: en
Keywords	Accident prevention; Emergency stop signal; Powered two-wheeler safety; Rear-end collision alert signal; Rear-end collision warning; Traffic accident simulation modeling