2020
DOI: 10.3390/app10051665
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Contingent Task and Motion Planning under Uncertainty for Human–Robot Interactions

Abstract: Manipulation planning under incomplete information is a highly challenging task for mobile manipulators. Uncertainty can be resolved by robot perception modules or using human knowledge in the execution process. Human operators can also collaborate with robots for the execution of some difficult actions or as helpers in sharing the task knowledge. In this scope, a contingent-based task and motion planning is proposed taking into account robot uncertainty and human-robot interactions, resulting a tree-shaped se… Show more

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Cited by 12 publications
(11 citation statements)
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“…In recent studies (Akbari et al, 2020; Rizwan et al, 2020), we observe the uses of hybrid conditional planning in robotics in the spirit of our proposed method. Akbari et al (2020) embedded geometric reasoning with the conditional planner Contingent-FF for human–robot collaborative manipulation tasks that involve actuation actions (e.g., push an object, open a container) and sensing actions (e.g., sense the pose of an object, check whether a container is open).…”
Section: Related Workmentioning
confidence: 99%
See 1 more Smart Citation
“…In recent studies (Akbari et al, 2020; Rizwan et al, 2020), we observe the uses of hybrid conditional planning in robotics in the spirit of our proposed method. Akbari et al (2020) embedded geometric reasoning with the conditional planner Contingent-FF for human–robot collaborative manipulation tasks that involve actuation actions (e.g., push an object, open a container) and sensing actions (e.g., sense the pose of an object, check whether a container is open).…”
Section: Related Workmentioning
confidence: 99%
“…In recent studies (Akbari et al, 2020; Rizwan et al, 2020), we observe the uses of hybrid conditional planning in robotics in the spirit of our proposed method. Akbari et al (2020) embedded geometric reasoning with the conditional planner Contingent-FF for human–robot collaborative manipulation tasks that involve actuation actions (e.g., push an object, open a container) and sensing actions (e.g., sense the pose of an object, check whether a container is open). Rizwan et al (2020) used the hybrid conditional planner HCP-ASP for human–robot collaborative assembly planning that involves three types of actions: actuation actions (e.g., pick and place an object), sensing actions (e.g., sense that the human is holding a part), and communicative actions (e.g., ask human for help, offer human help, confirm some tasks).…”
Section: Related Workmentioning
confidence: 99%
“…While most TAMP methods assume a fully observable and deterministic world [2], some have been developed to account for the uncertainty from perception and action outcomes [31]- [36]. For instance, the work of Kaelbling and Lozano-Pérez extended the "hierarchical planning in the now" approach to address both current-state uncertainty and future-state uncertainty [31].…”
Section: B Tamp Under Uncertaintymentioning
confidence: 99%
“…The paper proposes a novel method for information sharing that works when robots have different sensors, there is positional uncertainty, and obstacles are dynamic. Aliakbar Akbari, Mohammed Diab, and Jan Rosell [8] also focus on uncertainty but in the context of mobile manipulation. In these applications, humans can collaborate with robots to execute complex actions, sharing their knowledge about the task and scenario.…”
Section: Challengesmentioning
confidence: 99%