Path replanning approach for multiple UAVs based on SAS(sparse A* Search) algorithm under human automation collaboration

Yanying Tan; Miao Hu; Xiaoping Zhu; Zhou Zhou

Path replanning approach for multiple UAVs based on SAS(sparse A^* Search) algorithm under human automation collaboration

Yanying Tan, Miao Hu, Xiaoping Zhu, Zhou Zhou

School of Aeronautics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

An improved path replanning sparse A^* search algorithm based on the strategy of human-automation collaboration is proposed for multiple UAVs under complex and dynamic war environment. The proposed strategy is that the sub-goal waypoints can be inserted manually in the dynamic path replanning window through human-automation collaboration with the A^* algorithm executing automatically. The replanning waypoints are processed further and merged. Simulation experimental results and their analysis show preliminarily that the above method can obtain an subjectively satisfactory result rapidly, satisfying the requirements of popup-threat avoidance, collision avoidance among multiple paths, reducing search space and computation time, and making the number of replanned waypoints smaller and transmission time shorter.

Original language	English
Pages (from-to)	688-692
Number of pages	5
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	32
Issue number	5
State	Published - 1 Oct 2014

Keywords

Human-automation collaboration
Improved SAS (Sparse A Search) algorithm
Multiple unmanned aerial vehicles(UAVs)
Path planning
Popup threats

Cite this

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title = "Path replanning approach for multiple UAVs based on SAS(sparse A* Search) algorithm under human automation collaboration",

abstract = "An improved path replanning sparse A* search algorithm based on the strategy of human-automation collaboration is proposed for multiple UAVs under complex and dynamic war environment. The proposed strategy is that the sub-goal waypoints can be inserted manually in the dynamic path replanning window through human-automation collaboration with the A* algorithm executing automatically. The replanning waypoints are processed further and merged. Simulation experimental results and their analysis show preliminarily that the above method can obtain an subjectively satisfactory result rapidly, satisfying the requirements of popup-threat avoidance, collision avoidance among multiple paths, reducing search space and computation time, and making the number of replanned waypoints smaller and transmission time shorter.",

keywords = "Human-automation collaboration, Improved SAS (Sparse A Search) algorithm, Multiple unmanned aerial vehicles(UAVs), Path planning, Popup threats",

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AU - Tan, Yanying

AU - Hu, Miao

AU - Zhu, Xiaoping

AU - Zhou, Zhou

PY - 2014/10/1

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N2 - An improved path replanning sparse A* search algorithm based on the strategy of human-automation collaboration is proposed for multiple UAVs under complex and dynamic war environment. The proposed strategy is that the sub-goal waypoints can be inserted manually in the dynamic path replanning window through human-automation collaboration with the A* algorithm executing automatically. The replanning waypoints are processed further and merged. Simulation experimental results and their analysis show preliminarily that the above method can obtain an subjectively satisfactory result rapidly, satisfying the requirements of popup-threat avoidance, collision avoidance among multiple paths, reducing search space and computation time, and making the number of replanned waypoints smaller and transmission time shorter.

AB - An improved path replanning sparse A* search algorithm based on the strategy of human-automation collaboration is proposed for multiple UAVs under complex and dynamic war environment. The proposed strategy is that the sub-goal waypoints can be inserted manually in the dynamic path replanning window through human-automation collaboration with the A* algorithm executing automatically. The replanning waypoints are processed further and merged. Simulation experimental results and their analysis show preliminarily that the above method can obtain an subjectively satisfactory result rapidly, satisfying the requirements of popup-threat avoidance, collision avoidance among multiple paths, reducing search space and computation time, and making the number of replanned waypoints smaller and transmission time shorter.

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KW - Multiple unmanned aerial vehicles(UAVs)

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Path replanning approach for multiple UAVs based on SAS(sparse A^* Search) algorithm under human automation collaboration

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