以保护无人船航行安全为目的,设计改进人工势场法的无人船航行自动避障系统。该系统利用信息感知与处理模块将无人船的航行计划、气象数据存储岸基础数据库后,通过卫星通信方式将其传输到船端数据库内,再通过反馈模块获取无人船航向、航速和航行环境图像后,通过信息感知与处理模块内的感知信息融合单元进行融合处理并存储到船端数据库内;决策模块通过调取船端数据内信息后,识别无人船航行环境中的障碍物并使用改进人工势场的碰撞路径规划方法规划无人船航行路径,然后将路径规划结果发送到避障控制执行模块内。该模型通过无人船载控单元控制无人船动力体系,实现无人船航行自动避障。实验表明,该系统运行稳定性较佳,可有效控制无人船躲避航行环境中的障碍物,应用效果较为显著。
With the aim of protecting the safety of unmanned ship navigation, an automatic obstacle avoidance system for unmanned ship navigation is designed and improved using the artificial potential field method. The system uses an information perception and processing module to store the navigation plan and meteorological data of unmanned ships in the shore basic database, and then transmits them to the shipside database through satellite communication. After obtaining the unmanned ship's heading, speed, and navigation environment images through the feedback module, the perception information fusion unit in the information perception and processing module is used for fusion processing and stored in the shipside database; The decision-making module identifies obstacles in the unmanned ship's navigation environment by retrieving information from the ship's data, and plans the unmanned ship's navigation path using an improved artificial potential field collision path planning method. The path planning results are then sent to the obstacle avoidance control execution module, which controls the unmanned ship's power system through the unmanned ship's control unit to achieve automatic obstacle avoidance during unmanned ship navigation. The experiment shows that the system has good operational stability and can effectively control unmanned ships to avoid obstacles in the navigation environment, with significant application effects.
2023,45(20): 97-100 收稿日期:2023-5-3
DOI:10.3404/j.issn.1672-7649.2023.20.018
分类号:TP391
作者简介:余海洋(1983-),男,硕士,助理研究员,研究方向为教学管理及软件开发
参考文献:
[1] 周则兴, 陈卓, 包涛, 等. 基于改进人工势场法的欠驱动无人艇避障[J]. 船舶工程, 2022, 44(4): 19-23.
ZHOU Ze-xing, CHEN Zhuo, BAO Tao, et al. Obstacle avoidance based on improved artificial potential field for under-actuated USV[J]. Ship Engineering, 2022, 44(4): 19-23.
[2] 付雷, 秦一杰, 何顶新, 等. 基于改进人工势场法的多机器人编队避障[J]. 控制工程, 2022, 29(3): 388-396.
FU Lei, QIN Yi-jie, HE Ding-xin, et al. Obstacle avoidance in multi-robot formation based on improved artificial potential field[J]. Control Engineering of China, 2022, 29(3): 388-396.
[3] 毕卫红, 孙迎坤, 谈木, 等. 一种基于多线激光雷达的无人艇避障系统设计[J]. 中国造船, 2020, 61(z1): 80-88.
BI Wei-hong, SUN Ying-kun, TAN Mu, et al. Design of obstacle avoidance system for unmanned boat based on multi-layer laser radar[J]. Shipbuilding of China, 2020, 61(z1): 80-88.
[4] 罗贤程, 尹建川, 李宏宾. 基于动态分阶势场法的船舶自动避碰系统[J]. 上海海事大学学报, 2020, 41(1): 1-7.
LUO Xian-cheng, YIN Jian-chuan, LI Hong-bin. An automatic collision avoidance system of ships based on dynamic hierarchical potential field method[J]. Journal of Shanghai Maritime University, 2020, 41(1): 1-7.
[5] 薛阳, 俞志程, 吴海东, 等. 基于改进人工势场法的双机械臂避障路径规划[J]. 机械传动, 2020, 44(3): 39-45.
XUE Yang, YU Zhi-cheng, WU Hai-dong, et al. Obstacle avoidance path planning for double manipulator based on improved artificial potential field method[J]. Journal of Mechanical Transmission, 2020, 44(3): 39-45.
[6] 郭银景, 刘琦, 鲍建康, 等. 基于人工势场法的AUV避障算法研究综述[J]. 计算机工程与应用, 2020, 56(4): 16-23.
GUO Yin-jing, LIU Qi, BAO Jian-kang, et al. Overview of AUV obstacle avoidance algorithm based on artificial potential field method[J]. Computer Engineering and Applications, 2020, 56(4): 16-23.
[7] 陈岱岱, 李玩幽, 包雄关, 等. 带拖曳线列阵水面无人艇的避障方法研究[J]. 华中科技大学学报(自然科学版), 2020, 48(12): 72-77.
CHEN Dai-dai, LI Wan-you, BAO Xiong-guan, et al. Velocity obstacle collision avoidance approach for USV with towed array [J]. Journal of Huazhong University of Science and Technology(Nature Science Edition), 2020, 48(12): 72-77.
