Dynamic Task Assignment and Path Planning for Multi-AUV System in Variable Ocean Current Environment

An integrated multiple autonomous underwater vehicle (multi-AUV) dynamic task assignment and path planning algorithm is proposed by combing the improved self-organizing map (SOM) neural network and a novel velocity synthesis approach. Each target is to be visited by one and only one AUV, and a short...

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Published in	Journal of intelligent & robotic systems Vol. 74; no. 3-4; pp. 999 - 1012
Main Authors	Huang, Huan, Zhu, Daqi, Ding, Feng
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.06.2014 Springer Nature B.V
Subjects	Artificial Intelligence Autonomous underwater vehicles Computer simulation Control Dynamical systems Dynamics Electrical Engineering Engineering Mechanical Engineering Mechatronics Ocean currents Path planning Robotics Synthesis Tasks Time-varying ocean current Dynamic task assignment Velocity synthesis Self-organizing map Multi-AUV system Dynamic target
Online Access	Get full text
ISSN	0921-0296 1573-0409
DOI	10.1007/s10846-013-9870-2

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Abstract	An integrated multiple autonomous underwater vehicle (multi-AUV) dynamic task assignment and path planning algorithm is proposed by combing the improved self-organizing map (SOM) neural network and a novel velocity synthesis approach. Each target is to be visited by one and only one AUV, and a shortest path between a starting point and the destination is found in the presence of the variable current environment and dynamic targets. Firstly, the SOM neuron network is developed to assign a team of AUVs to achieve multiple target locations in dynamic ocean environment. The working process involves special definition of the rule to select the winner, the computation of the neighborhood function, and the method to update weights. Then, the velocity synthesis approach is applied to plan a shortest path for each AUV to visit the corresponding target in dynamic environment subject to the ocean current being variable and targets being movable. Lastly, to demonstrate the effectiveness of the proposed approach, simulation results are given in this paper.
AbstractList	An integrated multiple autonomous underwater vehicle (multi-AUV) dynamic task assignment and path planning algorithm is proposed by combing the improved self-organizing map (SOM) neural network and a novel velocity synthesis approach. Each target is to be visited by one and only one AUV, and a shortest path between a starting point and the destination is found in the presence of the variable current environment and dynamic targets. Firstly, the SOM neuron network is developed to assign a team of AUVs to achieve multiple target locations in dynamic ocean environment. The working process involves special definition of the rule to select the winner, the computation of the neighborhood function, and the method to update weights. Then, the velocity synthesis approach is applied to plan a shortest path for each AUV to visit the corresponding target in dynamic environment subject to the ocean current being variable and targets being movable. Lastly, to demonstrate the effectiveness of the proposed approach, simulation results are given in this paper. An integrated multiple autonomous underwater vehicle (multi-AUV) dynamic task assignment and path planning algorithm is proposed by combing the improved self-organizing map (SOM) neural network and a novel velocity synthesis approach. Each target is to be visited by one and only one AUV, and a shortest path between a starting point and the destination is found in the presence of the variable current environment and dynamic targets. Firstly, the SOM neuron network is developed to assign a team of AUVs to achieve multiple target locations in dynamic ocean environment. The working process involves special definition of the rule to select the winner, the computation of the neighborhood function, and the method to update weights. Then, the velocity synthesis approach is applied to plan a shortest path for each AUV to visit the corresponding target in dynamic environment subject to the ocean current being variable and targets being movable. Lastly, to demonstrate the effectiveness of the proposed approach, simulation results are given in this paper.[PUBLICATION ABSTRACT]
Author	Huang, Huan Zhu, Daqi Ding, Feng
Author_xml	– sequence: 1 givenname: Huan surname: Huang fullname: Huang, Huan organization: Laboratory of Underwater Vehicles and Intelligent Systems, Shanghai Maritime University – sequence: 2 givenname: Daqi surname: Zhu fullname: Zhu, Daqi email: zdq367@yahoo.com.cn organization: Laboratory of Underwater Vehicles and Intelligent Systems, Shanghai Maritime University – sequence: 3 givenname: Feng surname: Ding fullname: Ding, Feng organization: Control Science and Engineering Research Center, Jiangnan University
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Snippet	An integrated multiple autonomous underwater vehicle (multi-AUV) dynamic task assignment and path planning algorithm is proposed by combing the improved...
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SubjectTerms	Artificial Intelligence Autonomous underwater vehicles Computer simulation Control Dynamical systems Dynamics Electrical Engineering Engineering Mechanical Engineering Mechatronics Ocean currents Path planning Robotics Synthesis Tasks
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Title	Dynamic Task Assignment and Path Planning for Multi-AUV System in Variable Ocean Current Environment
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