惯性参考单元的变增益 PI 位置控制技术
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TH741

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国家自然科学基金青年基金(62203322)、中国博士后科学基金面上项目(2022M712372)、深海技术科学太湖实验室“揭榜挂帅”项目(2022JBGS03001)资助


Variable gain PI position control technique of inertial reference unit
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    摘要:

    基于惯性参考单元的视轴稳定方式是克服运动载体光电跟瞄系统外部扰动,实现微弧度甚至亚微弧度级跟瞄的主要技 术手段。 惯性参考单元的初始校准需要构建以电涡流线位移传感器作为角位置反馈元件的闭环控制回路,角位置控制精度是 影响光电跟瞄系统指向精度的主要因素。 为了解决惯性参考单元系统位置控制面临的基座扰动、传感器噪声等问题,提出基于 频段估计的变增益 PI 控制方法。 设计改进扰动观测器,降低中低频传感噪声对控制精度的影响,设计频段估计器实现外部扰 动频段的细分,据此动态调节控制器增益。 仿真和实验结果表明,基于 VGPI-IDOB 控制算法能够有效提高系统的位置控制精 度,无输入条件下,系统的静态输出均方根较 PI 控制降低了 67. 3% ;15 Hz,1 mrad 正弦输入,20 Hz,0. 097 mrad 扰动作用下, VGPI-IDOB 的位置控制精度相较 PI 控制提升了 72% 。

    Abstract:

    The inertial reference unit based visual axis stabilization is a main technique used to overcome external disturbance of the moving carrier photoelectric tracking system and realize micro-radian or even sub-micro-radian level tracking. The initial calibration of inertial reference unit requires the construction of a closed-loop control loop with the eddy current displacement sensor as the angular position feedback element. The angular position control accuracy is the main factor that affects the pointing accuracy of the photoelectric tracking system. To solve the problems such as base disturbance and sensor noise faced by inertial reference unit system position control, the varying gain PI control method based on frequency band estimation is proposed. The improved disturbance observer is designed to reduce the influence of middle and low frequency sensing noise on the control accuracy, and the frequency band estimator is designed to realize the subdivision of external disturbance frequency band and dynamically adjust the controller gain accordingly. Simulation and experimental results show that the VGPI-IDOB control algorithm can effectively improve the position control accuracy of the system. Under the condition of no input, the static output root mean square of the system is reduced by 67. 3% compared with that of the PI controller. Under the influence of 15 Hz, 1 mrad sinusoidal input, 20 Hz, 0. 097 mrad disturbance, the position control accuracy of VGPI-IDOB is improved by 72% compared with the PI structure.

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刘雅琪,拓卫晓,李醒飞,王天宇,何梦洁.惯性参考单元的变增益 PI 位置控制技术[J].仪器仪表学报,2023,44(10):1-12

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  • 在线发布日期: 2024-01-25
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