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RESEARCH PRODUCT
Arrival-time judgments on multiple-lane streets: the failure to ignore irrelevant traffic
Robin BaurèsRobin BaurèsHeiko HechtViola CavalloIsabelle TournierDaniel Oberfeldsubject
AdultMaleEngineeringMatching (statistics)Automobile Drivingmedia_common.quotation_subjectSeparation (aeronautics)Decision MakingCARREFOURPoison controlHuman Factors and Ergonomics050105 experimental psychologyTask (project management)Transport engineering03 medical and health sciencesJudgment0302 clinical medicineRisk-TakingPerceptionOrientation11. SustainabilityHumans0501 psychology and cognitive sciencesAttentionComputer SimulationSafety Risk Reliability and Qualitymedia_common[SDV.NEU.PC]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Psychology and behaviorbusiness.industry05 social sciencesPERCEPTION SENSORIELLEPublic Health Environmental and Occupational HealthTime perceptionSightTime PerceptionEnvironment DesignFemaleProbability LearningSafetyTRAVERSEE DE LA RUEbusiness030217 neurology & neurosurgeryIntersection (aeronautics)description
How do road users decide whether or not they have enough time to cross a multiple-lane street with multiple approaching vehicles? Temporal judgments have been investigated for single cars approaching an intersection; however, close to nothing is known about how street crossing decisions are being made when several vehicles are simultaneously approaching in two adjacent lanes. This task is relatively common in urban environments. We report two simulator experiments in which drivers had to judge whether it would be safe to initiate street crossing in such cases. Matching traffic gaps (i.e., the temporal separation between two consecutive vehicles) were presented either with cars approaching on a single lane or with cars approaching on two adjacent lanes, either from the same side (Experiment 1) or from the opposite sides (Experiment 2). The stimuli were designed such that only the shortest gap was decision-relevant. The results showed that when the two gaps were in sight simultaneously (Experiment 1), street-crossing decisions were also influenced by the decision-irrelevant longer gap. Observers were more willing to cross the street when they had access to information about the irrelevant gap. However, when the two gaps could not be seen simultaneously but only sequentially (Experiment 2), only the shorter and relevant gap influenced the street-crossing decisions. The results are discussed within the framework of perceptual averaging processes, and practical implications for road safety are presented. Time-to-arrival, Multiple gaps
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-01-01 |