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Temporal proximity and events duration affects change detection during driving

Kondyli, Vasiliki LU and Bhatt, Mehul (2024) 9th International Conference on Driver Distraction and Inattention, 2024
Abstract
Failure in change detection in the surrounding environment while driving is attributed among other things to the number of incidents and the density of them occurring along the task as this is directly related to an increase in cognitive load. Here, we investigate the role of time proximity between events on the detection performance during a naturalistic driving task in a virtual simulation. Participants performed a change detection task while driving, in which we systematically manipulated the time difference between changes and we analysed the effect on detection performance by the driver. Our research demonstrates that events occurring simultaneously deteriorate detection performance (in terms of detection rate, and detection time),... (More)
Failure in change detection in the surrounding environment while driving is attributed among other things to the number of incidents and the density of them occurring along the task as this is directly related to an increase in cognitive load. Here, we investigate the role of time proximity between events on the detection performance during a naturalistic driving task in a virtual simulation. Participants performed a change detection task while driving, in which we systematically manipulated the time difference between changes and we analysed the effect on detection performance by the driver. Our research demonstrates that events occurring simultaneously deteriorate detection performance (in terms of detection rate, and detection time), while performance improves as the temporal gap increases. Moreover, the outcomes suggest that the duration of an event affects the detection of the following one, with better performance recorded for very short or very long duration events and worse for medium duration events between (5-10 sec). These outcomes are crucial for driving assistance and training, considering the detection of safety-critical events or efficient attentional disengagement on time from irrelevant targets. (Less)
Please use this url to cite or link to this publication:
author
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organization
publishing date
type
Contribution to conference
publication status
published
subject
keywords
visual attention, multimodality, naturalistic studies, embodied interactions, driving, cognitive technologies
conference name
9th International Conference on Driver Distraction and Inattention, 2024
conference location
Michigan, United States
conference dates
2024-10-22 - 2024-10-24
language
English
LU publication?
yes
id
b267bfee-f71f-46e8-975f-3658341974e9
alternative location
https://ddi2024.org/wp-content/uploads/2024/11/DDI2024-ABSTRACTS-.pdf
date added to LUP
2025-06-28 20:45:30
date last changed
2025-07-01 10:25:35
@misc{b267bfee-f71f-46e8-975f-3658341974e9,
  abstract     = {{Failure in change detection in the surrounding environment while driving is attributed among other things to the number of incidents and the density of them occurring along the task as this is directly related to an increase in cognitive load. Here, we investigate the role of time proximity between events on the detection performance during a naturalistic driving task in a virtual simulation. Participants performed a change detection task while driving, in which we systematically manipulated the time difference between changes and we analysed the effect on detection performance by the driver. Our research demonstrates that events occurring simultaneously deteriorate detection performance (in terms of detection rate, and detection time), while performance improves as the temporal gap increases. Moreover, the outcomes suggest that the duration of an event affects the detection of the following one, with better performance recorded for very short or very long duration events and worse for medium duration events between (5-10 sec). These outcomes are crucial for driving assistance and training, considering the detection of safety-critical events or efficient attentional disengagement on time from irrelevant targets.}},
  author       = {{Kondyli, Vasiliki and Bhatt, Mehul}},
  keywords     = {{visual attention; multimodality; naturalistic studies; embodied interactions; driving; cognitive technologies}},
  language     = {{eng}},
  month        = {{10}},
  title        = {{Temporal proximity and events duration affects change detection during driving}},
  url          = {{https://ddi2024.org/wp-content/uploads/2024/11/DDI2024-ABSTRACTS-.pdf}},
  year         = {{2024}},
}