Multitasking in Driving as Optimal Adaptation Under Uncertainty

Objective The objective was to better understand how people adapt multitasking behavior when circumstances in driving change and how safe versus unsafe behaviors emerge. Background Multitasking strategies in driving adapt to changes in the task environment, but the cognitive mechanisms of this adapt...

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Bibliographic Details
Published in:Human factors 2021-12, Vol.63 (8), p.1324-1341
Main Authors: Jokinen, Jussi P. P., Kujala, Tuomo, Oulasvirta, Antti
Format: Article
Language:English
Subjects:
Adaptation
Arbitration
Attention
Attention task
Automobile Driving
Behavior
Cognition
Cognitive ability
Decision making
Humans
Multitasking
Simulation
Uncertainty
Visual perception
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Summary:Objective The objective was to better understand how people adapt multitasking behavior when circumstances in driving change and how safe versus unsafe behaviors emerge. Background Multitasking strategies in driving adapt to changes in the task environment, but the cognitive mechanisms of this adaptation are not well known. Missing is a unifying account to explain the joint contribution of task constraints, goals, cognitive capabilities, and beliefs about the driving environment. Method We model the driver’s decision to deploy visual attention as a stochastic sequential decision-making problem and propose hierarchical reinforcement learning as a computationally tractable solution to it. The supervisory level deploys attention based on per-task value estimates, which incorporate beliefs about risk. Model simulations are compared against human data collected in a driving simulator. Results Human data show adaptation to the attentional demands of ongoing tasks, as measured in lane deviation and in-car gaze deployment. The predictions of our model fit the human data on these metrics. Conclusion Multitasking strategies can be understood as optimal adaptation under uncertainty, wherein the driver adapts to cognitive constraints and the task environment’s uncertainties, aiming to maximize the expected long-term utility. Safe and unsafe behaviors emerge as the driver has to arbitrate between conflicting goals and manage uncertainty about them. Application Simulations can inform studies of conditions that are likely to give rise to unsafe driving behavior.
ISSN:0018-7208
1547-8181
DOI:10.1177/0018720820927687