Pedestrians distracted by their smartphone: Are in-ground flashing lights catching their attention? A laboratory study

•Distracted pedestrians with mobile devices is a growing issue at intersections.•In-ground LEDs are trialled to regain the attention of distracted pedestrians.•No research has evaluated their effects.•In a laboratory setting, in-ground LEDs attract the attention of distracted pedestrians. Pedestrian...

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Bibliographic Details
Published in:Accident analysis and prevention 2020-01, Vol.134, p.105346-105346, Article 105346
Main Authors: Larue, Grégoire S., Watling, Christopher N., Black, Alexander A., Wood, Joanne M., Khakzar, Mahrokh
Format: Article
Language:English
Subjects:
Adult
Attention - physiology
Built Environment
Crossing
Distraction
Eye Movements - physiology
Female
Humans
Lighting
Male
Mobile phone
Pedestrian
Pedestrians - psychology
Psychology
psykologi
Reaction Time - physiology
Reaction times
Road intervention
Safety
Smartphone
Standing and walking
Task Performance and Analysis
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Summary:•Distracted pedestrians with mobile devices is a growing issue at intersections.•In-ground LEDs are trialled to regain the attention of distracted pedestrians.•No research has evaluated their effects.•In a laboratory setting, in-ground LEDs attract the attention of distracted pedestrians. Pedestrian distraction is a growing road safety concern worldwide. While there are currently no studies linking distraction and pedestrian crash risk, distraction has been shown to increase risky behaviours in pedestrians, for example, through reducing visual scanning before traversing an intersection. Illuminated in-ground Light Emitting Diodes (LEDs) embedded into pathways are an emerging solution to address the growing distraction problem associated with mobile use while walking. The current study sought to determine if such an intervention was effective in attracting the attention of distracted pedestrians. We conducted a controlled laboratory study (N = 24) to evaluate whether pedestrians detected the activation of flashing LEDs when distracted by a smartphone more accurately and efficiently when the lights were located on the floor compared to a control position on the wall. Eye gaze movements via an eye tracker and behavioural responses via response times assessed the detection of these flashing LEDs. Distracted participants were able to detect the activation of the floor and wall-mounted LEDs with accuracies above 90%. The visual and auditory distraction tasks increased reaction times by 143 and 124 ms, respectively. Even when distracted, performance improved with floor LEDs close to participants, with reaction time improvements by 43 and 159 ms for the LEDs 2 and 1 ms away from the participant respectively. The addition of floor LED lights resulted in a performance similar to the one observed for wall-mounted LEDs in the non-distracted condition. Moreover, participants did not necessarily need to fixate on the LEDs to detect their activation, thus were likely to have detected them using their peripheral vision. The findings suggest that LEDs embedded in pathways are likely to be effective at attracting the attention of distracted pedestrians. Further research needs to be conducted in the field to confirm these findings, and to evaluate the actual effects on behaviour under real-world conditions.
ISSN:0001-4575
1879-2057
1879-2057
DOI:10.1016/j.aap.2019.105346