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Paper detail

Learning to Optimize Autonomy in Competence-Aware Systems

Interest in semi-autonomous systems (SAS) is growing rapidly as a paradigm to deploy autonomous systems in domains that require occasional reliance on humans. This paradigm allows service robots or autonomous vehicles to operate at varying levels of autonomy and offer safety in situations that require human judgment. We propose an introspective model of autonomy that is learned and updated online through experience and dictates the extent to which the agent can act autonomously in any given situation. We define a competence-aware system (CAS) that explicitly models its own proficiency at different levels of autonomy and the available human feedback. A CAS learns to adjust its level of autonomy based on experience to maximize overall efficiency, factoring in the cost of human assistance. We analyze the convergence properties of CAS and provide experimental results for robot delivery and autonomous driving domains that demonstrate the benefits of the approach.

preprint2020arXivOpen access
Connor BasichJustin SvegliatoKyle Hollins WrayStefan WitwickiJoydeep BiswasShlomo Zilberstein
Artificial IntelligenceRobotics
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Connor BasichJustin SvegliatoKyle Hollins WrayStefan WitwickiJoydeep BiswasShlomo Zilberstein

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