海流环境下多AUV多目标生物启发任务分配与路径规划算法

针对多障碍物海流环境下多自治水下机器人(AUV)目标任务分配与路径规划问题, 本文在栅格地图构建的 基础上给出了一种基于生物启发神经网络(BINN)模型的新型自主任务分配与路径规划算法, 并考虑海流对路径规 划的影响. 首先建立BINN模型, 利用此模型表示AUV的工作环境, 神经网络中的每一个神经元与栅格地图中的位 置单元一一对应; 接着, 比较每个目标物在BINN地图中所有AUV的活性值, 并选取活性值最大的AUV作为它的获 胜AUV, 实现多AUV任务分配; 最后, 考虑常值海流影响, 根据矢量合成算法确定AUV实际的航行方向, 实现AUV路 径规划与安全避障. 海流环境下仿真实验结果表明了生物启发模型在多AUV水下任务分配与路径规划中的有效性.

A novel algorithm of multi-AUVs task assignment and path planning based on biologically inspired neural network for ocean current environment

Aiming at the multi-AUVs task assignment and path planning in the ocean current underwater environment with multi-obstacles, a novel autonomous task assignment and path planning algorithm is presented based on the biological inspired neural network model and grid map, and the impact of ocean current on path planning is considered. Firstly, the biologically inspired neural network model is established, and which is used to represent the working environment of the AUV. Each neuron in the neural network corresponds to the position unit in the grid map. Then, activity values of all AUVs of each target in the BINN map are compared, and the AUV with the largest active value is selected as its winning AUV for a certain target. The task assignment of multi-AUVs is realized. Finally, the actual direction of AUV navigation for ocean current environment is determined according to the vector synthesis algorithm. The simulation results show the effectiveness of the proposed multi-AUVs task assignment and path planning for the underwater environment with obstacles and ocean current.