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Journal Article

Citation

Jokinen JPP, Kujala T, Oulasvirta A. Hum. Factors 2020; ePub(ePub): ePub.

Copyright

(Copyright © 2020, Human Factors and Ergonomics Society, Publisher SAGE Publishing)

DOI

10.1177/0018720820927687

PMID

32731763

Abstract

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.


Language: en

Keywords

driving; computational rationality; multitasking; reinforcement learning; task interleaving

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