"I'mConfident This Will End Poorly": Robot Proficiency Self-Assessment in Human-Robot Teaming
Human-robot teams are expected to accomplish complex tasks in high-risk and uncertain environments. In domains such as space exploration or search & rescue, a human operator may not be a robotics expert, but will need to establish a baseline understanding of the robot's capabilities with re...
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| Published in | Proceedings of the ... IEEE/RSJ International Conference on Intelligent Robots and Systems pp. 2127 - 2134 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
23.10.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2153-0866 |
| DOI | 10.1109/IROS47612.2022.9981653 |
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| Abstract | Human-robot teams are expected to accomplish complex tasks in high-risk and uncertain environments. In domains such as space exploration or search & rescue, a human operator may not be a robotics expert, but will need to establish a baseline understanding of the robot's capabilities with respect to a given task in order to appropriately utilize and rely on the robot. This willingness to rely, also known as trust, is based partly on the operator's belief in the robot's task proficiency. If trust is too high, the operator may unknowingly push the robot beyond its capabilities. If trust is too low, the operator may not utilize it when they otherwise could have, wasting precious time and resources. In this work, we discuss results from an online human-subjects study investigating how a robot communicated report of its task proficiency with respect to an operator's expectations affects trust and performance in a navigation task. Our results show that communication of a robot self-assessment helped operators understand when reliance on the robot was appropriate given the task and conditions. This led to improvements in task performance, informed choices of autonomy level, and increased trust. |
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| AbstractList | Human-robot teams are expected to accomplish complex tasks in high-risk and uncertain environments. In domains such as space exploration or search & rescue, a human operator may not be a robotics expert, but will need to establish a baseline understanding of the robot's capabilities with respect to a given task in order to appropriately utilize and rely on the robot. This willingness to rely, also known as trust, is based partly on the operator's belief in the robot's task proficiency. If trust is too high, the operator may unknowingly push the robot beyond its capabilities. If trust is too low, the operator may not utilize it when they otherwise could have, wasting precious time and resources. In this work, we discuss results from an online human-subjects study investigating how a robot communicated report of its task proficiency with respect to an operator's expectations affects trust and performance in a navigation task. Our results show that communication of a robot self-assessment helped operators understand when reliance on the robot was appropriate given the task and conditions. This led to improvements in task performance, informed choices of autonomy level, and increased trust. |
| Author | Szafir, Daniel Ahmed, Nisar Conlon, Nicholas |
| Author_xml | – sequence: 1 givenname: Nicholas surname: Conlon fullname: Conlon, Nicholas email: nicholas.conlon@colorado.edu organization: University of Colorado at Boulder,Department of Computer Science,Boulder,CO,USA,80309 – sequence: 2 givenname: Daniel surname: Szafir fullname: Szafir, Daniel email: daniel.szafir@cs.unc.edu organization: University of North Carolina at Chapel Hill,Department of Computer Science,Chapel Hill,NC,USA,27599 – sequence: 3 givenname: Nisar surname: Ahmed fullname: Ahmed, Nisar email: nisar.ahmed@colorado.edu organization: Smead Aerospace Engineering Sciences, University of Colorado at Boulder,Boulder,CO,USA,80309 |
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| SubjectTerms | Intelligent robots Navigation Robots Space exploration Task analysis |
| Title | "I'mConfident This Will End Poorly": Robot Proficiency Self-Assessment in Human-Robot Teaming |
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