Simulation environment of an architecture for mission control system of AUVs operating in lakes of hydroelectric dams

Sandro Battistella, Max Hering de Queiroz
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引用次数: 1

Abstract

This paper presents a simulation environment for testing and validation of a Mission Control System (MCS) of autonomous underwater vehicles (AUV) operating in environments with characteristics found in lakes of hydroelectric dams. The Supervisory Control Theory (SCT) is used as formalism for the analysis and modelling of the event-driven dynamics of the AUV, but also as the basis for the development and implementation of the MCS architecture, enabling the decoupling of the hybrid dynamics of the AUV in its continuous and event-driven components. The MCS and the simulation environment are developed for the ROS (robot operating system) middleware and integrated with Matlab/Simulink software, simulating the AUV continuous dynamics and its control loops, and with a Human-Machine Interface (HMI) developed in Java, emulating fault and errors events.
水电大坝湖泊水下航行器任务控制系统体系结构仿真环境
本文提出了一个模拟环境,用于测试和验证自主水下航行器(AUV)任务控制系统(MCS)在具有水电大坝湖泊特征的环境中的运行。监督控制理论(SCT)被用作AUV事件驱动动力学分析和建模的形式,也是MCS架构开发和实现的基础,使AUV在其连续和事件驱动组件中的混合动力学解耦成为可能。针对机器人操作系统(ROS)中间件开发了MCS和仿真环境,结合Matlab/Simulink软件,模拟了水下航行器的连续动力学及其控制回路,并结合Java开发的人机界面(HMI),模拟了故障和错误事件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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