An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy
Unmanned aerial vehicle (UAV) path planning enables UAVs to avoid obstacles and reach the target efficiently. To generate high-quality paths without obstacle collision for UAVs, this article proposes a novel autonomous path planning algorithm based on a tangent intersection and target guidance strat...
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sg-ntu-dr.10356-1629642022-11-14T02:06:40Z An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy Liu, Huan Li, Xiamiao Fan, Mingfeng Wu, Guohua Pedrycz, Witold Suganthan, Ponnuthurai Nagaratnam School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Elliptic Tangent Graph Target Guidance Unmanned aerial vehicle (UAV) path planning enables UAVs to avoid obstacles and reach the target efficiently. To generate high-quality paths without obstacle collision for UAVs, this article proposes a novel autonomous path planning algorithm based on a tangent intersection and target guidance strategy (APPATT). Guided by a target, the elliptic tangent graph method is used to generate two sub-paths, one of which is selected based on heuristic rules when confronting an obstacle. The UAV flies along the selected sub-path and repeatedly adjusts its flight path to avoid obstacles through this way until the collision-free path extends to the target. Considering the UAV kinematic constraints, the cubic B-spline curve is employed to smooth the waypoints for obtaining a feasible path. Compared with A∗, PRM, RRT and VFH, the experimental results show that APPATT can generate the shortest collision-free path within 0.05 seconds for each instance under static environments. Moreover, compared with VFH and RRTRW, APPATT can generate satisfactory collision-free paths under uncertain environments in a nearly real-time manner. It is worth noting that APPATT has the capability of escaping from simple traps within a reasonable time. This work was supported in part by the National Natural Science Foundation of China under Grant 62073341, in part by the Natural Science Fund for Distinguished Young Scholars of Hunan Province under Grant 2019JJ20026, and in part by the National Natural Science Foundation of Hunan Province under Grant 2020JJ4748. 2022-11-14T02:06:40Z 2022-11-14T02:06:40Z 2020 Journal Article Liu, H., Li, X., Fan, M., Wu, G., Pedrycz, W. & Suganthan, P. N. (2020). An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy. IEEE Transactions On Intelligent Transportation Systems, 23(4), 3061-3073. https://dx.doi.org/10.1109/TITS.2020.3030444 1524-9050 https://hdl.handle.net/10356/162964 10.1109/TITS.2020.3030444 2-s2.0-85128154058 4 23 3061 3073 en IEEE Transactions on Intelligent Transportation Systems © 2020 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Elliptic Tangent Graph Target Guidance Liu, Huan Li, Xiamiao Fan, Mingfeng Wu, Guohua Pedrycz, Witold Suganthan, Ponnuthurai Nagaratnam An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| description |
Unmanned aerial vehicle (UAV) path planning enables UAVs to avoid obstacles and reach the target efficiently. To generate high-quality paths without obstacle collision for UAVs, this article proposes a novel autonomous path planning algorithm based on a tangent intersection and target guidance strategy (APPATT). Guided by a target, the elliptic tangent graph method is used to generate two sub-paths, one of which is selected based on heuristic rules when confronting an obstacle. The UAV flies along the selected sub-path and repeatedly adjusts its flight path to avoid obstacles through this way until the collision-free path extends to the target. Considering the UAV kinematic constraints, the cubic B-spline curve is employed to smooth the waypoints for obtaining a feasible path. Compared with A∗, PRM, RRT and VFH, the experimental results show that APPATT can generate the shortest collision-free path within 0.05 seconds for each instance under static environments. Moreover, compared with VFH and RRTRW, APPATT can generate satisfactory collision-free paths under uncertain environments in a nearly real-time manner. It is worth noting that APPATT has the capability of escaping from simple traps within a reasonable time. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Liu, Huan Li, Xiamiao Fan, Mingfeng Wu, Guohua Pedrycz, Witold Suganthan, Ponnuthurai Nagaratnam |
| format |
Article |
| author |
Liu, Huan Li, Xiamiao Fan, Mingfeng Wu, Guohua Pedrycz, Witold Suganthan, Ponnuthurai Nagaratnam |
| author_sort |
Liu, Huan |
| title |
An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| title_short |
An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| title_full |
An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| title_fullStr |
An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| title_full_unstemmed |
An autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| title_sort |
autonomous path planning method for unmanned aerial vehicle based on a tangent intersection and target guidance strategy |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162964 |
| _version_ |
1751548562405064704 |