The three studies included in the current report examine the transition from an infrastructure-based rural intersection crossing assist system to one located inside a vehicle. The primary goals of the first study, conducted in a simulator, were to examine the effect of potentially confounding factors, such as the drivers familiarity with the assist system and the impact of cognitive load on the driver's performance. Next, we examined the efficacy of several different designs of such system to determine the optimal interface design to be used for the in-vehicle system. Finally, the optimal design of the system was examined in the third study, as a field test. The results showed that the use of the system under cognitively demanding conditions did not result in any adverse consequences, which suggested that the processing of the system required minimal cognitive resources. Additionally, the results showed that the benefits of the assist system, such as reduced probability of accepting a critical gap were exhibited under the limited visibility conditions when the perceptual task of determining an appropriate crossing gap became overly demanding. The results from the field study showed that the use of the assist system resulted in improved intersection crossing performance exhibited in increased likelihood of making a complete stop at the stop sign and showed a strong trend toward a decreased probability of accepting critical gaps.


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    Title :

    Cooperative Intersection Collision Avoidance System: Stop Sign Assist: Experiments to Validate Use of an In-Vehicle Interface Design


    Contributors:
    E. Becic (author) / M. Manser (author) / J. Creaser (author) / M. Donath (author)

    Publication date :

    2012


    Size :

    113 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




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