Cognitive Load-based Affective Workload Allocation for Multi-human Multi-robot Teams
The interaction and collaboration between humans and multiple robots represent a novel field of research known as human multi-robot systems. Adequately designed systems within this field allow teams composed of both humans and robots to work together effectively on tasks such as monitoring, explorat...
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| Main Authors | , , , , , |
|---|---|
| Format | Journal Article |
| Language | English |
| Published |
18.03.2023
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.48550/arxiv.2303.10465 |
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| Abstract | The interaction and collaboration between humans and multiple robots
represent a novel field of research known as human multi-robot systems.
Adequately designed systems within this field allow teams composed of both
humans and robots to work together effectively on tasks such as monitoring,
exploration, and search and rescue operations. This paper presents a deep
reinforcement learning-based affective workload allocation controller
specifically for multi-human multi-robot teams. The proposed controller can
dynamically reallocate workloads based on the performance of the operators
during collaborative missions with multi-robot systems. The operators'
performances are evaluated through the scores of a self-reported questionnaire
(i.e., subjective measurement) and the results of a deep learning-based
cognitive workload prediction algorithm that uses physiological and behavioral
data (i.e., objective measurement). To evaluate the effectiveness of the
proposed controller, we use a multi-human multi-robot CCTV monitoring task as
an example and carry out comprehensive real-world experiments with 32 human
subjects for both quantitative measurement and qualitative analysis. Our
results demonstrate the performance and effectiveness of the proposed
controller and highlight the importance of incorporating both subjective and
objective measurements of the operators' cognitive workload as well as seeking
consent for workload transitions, to enhance the performance of multi-human
multi-robot teams. |
|---|---|
| AbstractList | The interaction and collaboration between humans and multiple robots
represent a novel field of research known as human multi-robot systems.
Adequately designed systems within this field allow teams composed of both
humans and robots to work together effectively on tasks such as monitoring,
exploration, and search and rescue operations. This paper presents a deep
reinforcement learning-based affective workload allocation controller
specifically for multi-human multi-robot teams. The proposed controller can
dynamically reallocate workloads based on the performance of the operators
during collaborative missions with multi-robot systems. The operators'
performances are evaluated through the scores of a self-reported questionnaire
(i.e., subjective measurement) and the results of a deep learning-based
cognitive workload prediction algorithm that uses physiological and behavioral
data (i.e., objective measurement). To evaluate the effectiveness of the
proposed controller, we use a multi-human multi-robot CCTV monitoring task as
an example and carry out comprehensive real-world experiments with 32 human
subjects for both quantitative measurement and qualitative analysis. Our
results demonstrate the performance and effectiveness of the proposed
controller and highlight the importance of incorporating both subjective and
objective measurements of the operators' cognitive workload as well as seeking
consent for workload transitions, to enhance the performance of multi-human
multi-robot teams. |
| Author | Yang, Baijian Wang, Ruiqi Rastgaar, Mo Min, Byung-Cheol Jo, Wonse Foti, Dan |
| Author_xml | – sequence: 1 givenname: Wonse surname: Jo fullname: Jo, Wonse – sequence: 2 givenname: Ruiqi surname: Wang fullname: Wang, Ruiqi – sequence: 3 givenname: Baijian surname: Yang fullname: Yang, Baijian – sequence: 4 givenname: Dan surname: Foti fullname: Foti, Dan – sequence: 5 givenname: Mo surname: Rastgaar fullname: Rastgaar, Mo – sequence: 6 givenname: Byung-Cheol surname: Min fullname: Min, Byung-Cheol |
| BackLink | https://doi.org/10.48550/arXiv.2303.10465$$DView paper in arXiv |
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| Snippet | The interaction and collaboration between humans and multiple robots
represent a novel field of research known as human multi-robot systems.
Adequately... |
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| SubjectTerms | Computer Science - Human-Computer Interaction Computer Science - Robotics |
| Title | Cognitive Load-based Affective Workload Allocation for Multi-human Multi-robot Teams |
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