Litcius/Paper detail

Who goes first? A distributed simulator study of vehicle–pedestrian interaction

Amir Hossein Kalantari, Yue Yang, Jorge García de Pedro, Yee Mun Lee, Anthony Horrobin, Albert Solernou, Christopher Holmes, Natasha Merat, Gustav Markkula

2023Accident Analysis & Prevention59 citationsDOIOpen Access PDF

Abstract

One of the current challenges of automation is to have highly automated vehicles (HAVs) that communicate effectively with pedestrians and react to changes in pedestrian behaviour, to promote more trustable HAVs. However, the details of how human drivers and pedestrians interact at unsignalised crossings remain poorly understood. We addressed some aspects of this challenge by replicating vehicle-pedestrian interactions in a safe and controlled virtual environment by connecting a high fidelity motion-based driving simulator to a CAVE-based pedestrian lab in which 64 participants (32 pairs of one driver and one pedestrian) interacted with each other under different scenarios. The controlled setting helped us study the causal role of kinematics and priority rules on interaction outcome and behaviour, something that is not possible in naturalistic studies. We also found that kinematic cues played a stronger role than psychological traits like sensation seeking and social value orientation in determining whether the pedestrian or driver passed first at unmarked crossings. One main contribution of this study is our experimental paradigm, which permitted repeated observation of crossing interactions by each driver-pedestrian participant pair, yielding behaviours which were qualitatively in line with observations from naturalistic studies.

Topics & Concepts

PedestrianKinematicsSimulationHuman–computer interactionDriving simulatorPoison controlFidelityComputer scienceEngineeringTransport engineeringMedicineEnvironmental healthClassical mechanicsTelecommunicationsPhysicsTraffic and Road SafetyEvacuation and Crowd DynamicsHuman-Automation Interaction and Safety