针对水雷对抗的多自主水下航行器多智能体控制软件框架

Howard Li, Alexandru Popa, Carl Thibault, M. Trentini, M. Seto
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引用次数: 18

摘要

本文提出了一种针对多自主水下航行器的新型机器人控制框架。在这个框架中,我们将声纳传感器数据和综合导航系统位置数据整合到一个名为UNBeatable-Sim的模拟环境中,在这个环境中可以执行和分析复杂的控制行为。UNBeatable-Sim是由加拿大新不伦瑞克大学基于协作的机器人和自动化(COBRA)研究小组开发的。距离和姿态传感器数据是在加拿大新斯科舍省贝德福德盆地收集的海底数据构建的海洋环境中积累的。使用UNBeatable-Sim从真实世界的数据生成海底地图。利用OpenGL对水下航行器和海底进行了仿真和可视化。利用Matlab和Simulink实现的外部控制器对机器人模型进行控制。使用UNBeatable-Sim对多个水下航行器在海洋环境中导航以感知和绘制海底地图进行了模拟,以评估系统架构和控制器性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A software framework for multi-agent control of multiple autonomous underwater vehicles for underwater mine counter-measures
In this study, a novel robot control framework is presented for multiple autonomous underwater vehicles. In this framework, we incorporate sonar sensor data and integrated navigation system position data in a simulation environment, called UNBeatable-Sim, where complex control behaviors can be executed and analyzed. UNBeatable-Sim is developed by the COllaboration Based Robotics and Automation (COBRA) research group at the University of New Brunswick, Canada. Range and pose sensor data are accumulated in an ocean environment constructed using seabed data collected at Bedford Basin, Nova Scotia, Canada by DRDC Atlantic. A seabed map is generated from the real-world data using UNBeatable-Sim. The underwater vehicle and the seabed are simulated and visualized using OpenGL. An external controller implemented using Matlab and Simulink is used to control the robot model. Simulations of multiple underwater vehicles to navigate in the ocean environment to sense and map the seabed are performed using UNBeatable-Sim to assess the system architecture and controller performance.
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CiteScore
3.90
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