6 DoF 水下焊接机器人的跟踪控制和神经网络干扰观测器

IF 2.3 3区 工程技术 Q2 ACOUSTICS
Ali Keymasi-Khalaji, Fatemeh Savaedi-Safihi
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引用次数: 0

摘要

本文探讨了三维空间中水下焊接机器人的控制问题。文章采用了一种控制方法,将用于位置和方向控制的有限时间滑动模式控制器与用于控制焊接臂一个自由度的反馈线性化相结合。在海洋环境中使用水下机器人往往会受到海浪和洋流引起的不确定性和干扰的阻碍,导致精度降低和操作中断。为了克服这些挑战,我们开发了一种基于径向基函数神经网络的新型观测器,以提高水下焊接机器人的性能。在控制法框架内使用 Lyapunov 方法对神经网络的权值进行了优化。文章通过仿真评估了观测器在存在不确定性的情况下准确跟踪参考轨迹的功效。结果强调了该估计器在减少不确定性和干扰方面的重要贡献,从而大大提高了水下焊接机器人的整体性能和运行可靠性。本研究提出的控制策略和观测器设计为提高复杂水下焊接操作的精度、稳定性和效率铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tracking control and neural network disturbance observer for a 6 DoF underwater welding robot
This article addresses the control of an underwater welding robot in 3D space. A control approach combining a finite time sliding mode controller for position and orientation control and feedback linearization for controlling one degree of freedom of the welding arm is adopted. The utilization of underwater robots in marine environments is often hindered by uncertainties and disturbances induced by ocean waves and currents, resulting in decreased accuracy and operational disruptions. To overcome these challenges, a novel observer based on a radial basis function neural network is developed to enhance the performance of the underwater welding robot. The neural network’s weights are optimized using the Lyapunov method within the control law framework. Through simulations, the article evaluates the observer’s efficacy in accurately tracking reference trajectories in the presence of uncertainties. The results underscore the significant contribution of this estimator in mitigating uncertainties and disturbances, thereby substantially improving the overall performance and operational reliability of underwater welding robots. The control strategies and observer design presented in this study pave the way for enhanced accuracy, stability, and efficiency in complex underwater welding operations.
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来源期刊
Journal of Vibration and Control
Journal of Vibration and Control 工程技术-工程:机械
CiteScore
5.20
自引率
17.90%
发文量
336
审稿时长
6 months
期刊介绍: The Journal of Vibration and Control is a peer-reviewed journal of analytical, computational and experimental studies of vibration phenomena and their control. The scope encompasses all linear and nonlinear vibration phenomena and covers topics such as: vibration and control of structures and machinery, signal analysis, aeroelasticity, neural networks, structural control and acoustics, noise and noise control, waves in solids and fluids and shock waves.
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