Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles
Collision avoidance is critical in multirobot systems. Most of the current methods for collision avoidance either require high computation costs (e.g., velocity obstacles and mathematical optimization) or cannot always provide safety guarantees (e.g., learning-based methods). Moreover, they cannot d...
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sg-ntu-dr.10356-1689272023-06-22T07:47:24Z Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles Tang, Wenbing Zhou, Yuan Zhang, Tianwei Liu, Yang Liu, Jing Ding, Zuohua School of Computer Science and Engineering Engineering::Computer science and engineering Collision Avoidance Fuzzy Rules Collision avoidance is critical in multirobot systems. Most of the current methods for collision avoidance either require high computation costs (e.g., velocity obstacles and mathematical optimization) or cannot always provide safety guarantees (e.g., learning-based methods). Moreover, they cannot deal with uncertain sensing data and linguistic requirements (e.g., the speed of a robot should not be large when it is near to other robots). Hence, to guarantee real-time collision avoidance and deal with linguistic requirements, a distributed and hybrid motion planning method, named Fuzzy-VO, is proposed for multirobot systems. It contains two basic components: fuzzy rules, which can deal with linguistic requirements and compute motion efficiently, and velocity obstacles (VOs), which can generate collision-free motion effectively. The Fuzzy-VO applies an intruder selection method to mitigate the exponential increase of the number of fuzzy rules. In detail, at any time instant, a robot checks the robots that it may collide with and retrieves the most dangerous robot in each sector based on the predicted collision time; then, the robot generates its velocity in real-time via fuzzy inference and VO-based fine-tuning. At each time instant, a robot only needs to retrieve its neighbors' current positions and velocities, so the method is fully distributed. Extensive simulations with a different number of robots are carried out to compare the performance of Fuzzy-VO with the conventional fuzzy rule method and the VO-based method from different aspects. The results show that: Compared with the conventional fuzzy rule method, the average success rate of the proposed method can be increased by 306.5%; compared with the VO-based method, the average one-step decision time is reduced by 740.9%. Ministry of Education (MOE) This work was supported by the Natural Science Foundation of China under Grant Nos. 61751210, 61210004 and 61170015, Academic Research Fund Tier 2 by Ministry of Education in Singapore under Grant No. MOE-T2EP20120-0004. 2023-06-22T07:47:24Z 2023-06-22T07:47:24Z 2023 Journal Article Tang, W., Zhou, Y., Zhang, T., Liu, Y., Liu, J. & Ding, Z. (2023). Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles. Robotica, 41(2), 668-689. https://dx.doi.org/10.1017/S0263574722001515 0263-5747 https://hdl.handle.net/10356/168927 10.1017/S0263574722001515 2-s2.0-85147138635 2 41 668 689 en MOE-T2EP20120-0004 Robotica © 2022 The Author(s). Published by Cambridge University Press. All rights reserved. |
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Engineering::Computer science and engineering Collision Avoidance Fuzzy Rules Tang, Wenbing Zhou, Yuan Zhang, Tianwei Liu, Yang Liu, Jing Ding, Zuohua Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| description |
Collision avoidance is critical in multirobot systems. Most of the current methods for collision avoidance either require high computation costs (e.g., velocity obstacles and mathematical optimization) or cannot always provide safety guarantees (e.g., learning-based methods). Moreover, they cannot deal with uncertain sensing data and linguistic requirements (e.g., the speed of a robot should not be large when it is near to other robots). Hence, to guarantee real-time collision avoidance and deal with linguistic requirements, a distributed and hybrid motion planning method, named Fuzzy-VO, is proposed for multirobot systems. It contains two basic components: fuzzy rules, which can deal with linguistic requirements and compute motion efficiently, and velocity obstacles (VOs), which can generate collision-free motion effectively. The Fuzzy-VO applies an intruder selection method to mitigate the exponential increase of the number of fuzzy rules. In detail, at any time instant, a robot checks the robots that it may collide with and retrieves the most dangerous robot in each sector based on the predicted collision time; then, the robot generates its velocity in real-time via fuzzy inference and VO-based fine-tuning. At each time instant, a robot only needs to retrieve its neighbors' current positions and velocities, so the method is fully distributed. Extensive simulations with a different number of robots are carried out to compare the performance of Fuzzy-VO with the conventional fuzzy rule method and the VO-based method from different aspects. The results show that: Compared with the conventional fuzzy rule method, the average success rate of the proposed method can be increased by 306.5%; compared with the VO-based method, the average one-step decision time is reduced by 740.9%. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Tang, Wenbing Zhou, Yuan Zhang, Tianwei Liu, Yang Liu, Jing Ding, Zuohua |
| format |
Article |
| author |
Tang, Wenbing Zhou, Yuan Zhang, Tianwei Liu, Yang Liu, Jing Ding, Zuohua |
| author_sort |
Tang, Wenbing |
| title |
Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| title_short |
Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| title_full |
Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| title_fullStr |
Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| title_full_unstemmed |
Cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| title_sort |
cooperative collision avoidance in multirobot systems using fuzzy rules and velocity obstacles |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168927 |
| _version_ |
1772828969392930816 |