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    基于模型和超扭状态观测滑模的光电测量系统控制技术研究

    Control Technology of Electro-Optical Measurement System Based on Model and Sliding Mode With Super-Twisting State Observation

    • 摘要: 为提高光电测量系统的测量精度和目标图像获取的稳定性,提出了一种基于模型和超扭状态观测滑模的伺服控制技术,建立的动力学模型解析了系统大部分耦合干扰,超扭状态观测器实现了对剩余干扰的准确估计,切换滑模控制器避免了系统抖振并实现了快速收敛。对光电测量系统全流程工作的仿真模拟表明,提出的控制方法能够有效抵抗环境干扰,使系统保持较好的稳定性和较快的跟踪速度,实现了方位测量误差0.005°、俯仰测量误差0.03°的较高精度测量效果,保证了光电测量系统对特定目标的高稳定性和高精度的监测与测量能力。

       

      Abstract: To improve the measurement accuracy and the stability of target image acquisition of electro-optical measurement system, a servo control technology based on model and sliding mode with super-twisting state observation for electro-optical measurement system is proposed in this paper. The established dynamic model analyzes most of the coupling disturbances in the system. The super-twisting state observer accurately estimates the remaining disturbances, and the switching sliding mode controller avoids system chattering and achieves rapid convergence. The simulation of the entire process of the electro-optical measurement system operation shows that the proposed control method can effectively resist environmental disturbances, maintain good stability and fast tracking speed of the system. It achieves high-precision measurement effects with an azimuth measurement error of 0.005° and an elevation measurement error of 0.03°, and ensures the high stability and high-precision monitoring and measurement capability of the electro-optical measurement system for the specified target.

       

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