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Hauptverfasser: Jazzaa, Hadeel, McCluskey, Thomas, Peebles, David
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2504.14259
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author Jazzaa, Hadeel
McCluskey, Thomas
Peebles, David
author_facet Jazzaa, Hadeel
McCluskey, Thomas
Peebles, David
contents The requirement for autonomous robots to exhibit higher-level cognitive skills by planning and adapting in an ever-changing environment is indeed a great challenge for the AI community. Progress has been made in the automated planning community on refinement and repair of an agent's symbolic knowledge to do task planning in an incomplete or changing environmental model, but these advances up to now have not been transferred to real physical robots. This paper demonstrates how a physical robot can be capable of adapting its symbolic knowledge of the environment, by using experiences in robot action execution to drive knowledge refinement and hence to improve the success rate of the task plans the robot creates. To implement more robust planning systems, we propose a method for refining domain knowledge to improve the knowledge on which intelligent robot behavior is based. This architecture has been implemented and evaluated using a NAO robot. The refined knowledge leads to the future synthesis of task plans which demonstrate decreasing rates of failure over time as faulty knowledge is removed or adjusted.
format Preprint
id arxiv_https___arxiv_org_abs_2504_14259
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Experience-based Refinement of Task Planning Knowledge in Autonomous Robots
Jazzaa, Hadeel
McCluskey, Thomas
Peebles, David
Robotics
Artificial Intelligence
The requirement for autonomous robots to exhibit higher-level cognitive skills by planning and adapting in an ever-changing environment is indeed a great challenge for the AI community. Progress has been made in the automated planning community on refinement and repair of an agent's symbolic knowledge to do task planning in an incomplete or changing environmental model, but these advances up to now have not been transferred to real physical robots. This paper demonstrates how a physical robot can be capable of adapting its symbolic knowledge of the environment, by using experiences in robot action execution to drive knowledge refinement and hence to improve the success rate of the task plans the robot creates. To implement more robust planning systems, we propose a method for refining domain knowledge to improve the knowledge on which intelligent robot behavior is based. This architecture has been implemented and evaluated using a NAO robot. The refined knowledge leads to the future synthesis of task plans which demonstrate decreasing rates of failure over time as faulty knowledge is removed or adjusted.
title Experience-based Refinement of Task Planning Knowledge in Autonomous Robots
topic Robotics
Artificial Intelligence
url https://arxiv.org/abs/2504.14259