In this review, we assess the real-world effectiveness of ADAS! (ADAS!) in preventing vehicle crashes. We propose a new, data-driven framework of safety performance based on dimensions urgency and level of control as an alternative to existing taxonomies.We identified 28 ADAS! and collected data on (real-world) safety performance of from grey (technical reports) and white (scientific) literature. ADAS! were categorized by functional class (longitudinal/lateral control, monitoring, information systems) and by interaction type (informing, warning, intervening, comfort-enhancing).The data analysis showed that LKA! (LKA!) (−19.1%) and DMS! (DMS!) (−14%) had the strongest crash rate reduction effects, followed by AEB! (AEB!) (−10.7%). However, systems like ACC! (ACC!) and CC! (CC!) were associated with increased crash rates (+8%, +12%). Categorizing systems by either functional class or interaction type revealed central tendencies favoring safety of longitudinal control and intervening systems, while comfort-enhancing systems showed detrimental effects.From the categorizations, we derived dimensions urgency and level of control, scoring individual ADAS! accordingly. A linear model based on these dimensions (pseudo-R2=0.103) explained a similar amount of variance as the categorizations (functional class: 0.140, interaction type: 0.087). The analysis indicated that low urgency and high level of control, typical of comfort-enhancing systems, did not improve safety.Our findings support the positive safety effects of ADAS!, but also point to risks, particularly for comfort-enhancing technologies. The proposed framework offers an explanation for the observations. It is simple and generalizable, and avoids disadvantages inherent to categorical classifications, making it a potentially valuable tool for designers and policymakers.


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    Titel :

    Rethinking Advanced Driver Assistance System taxonomies: A framework and inventory of real-world safety performance


    Beteiligte:


    Erscheinungsdatum :

    2025




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Unbekannt




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