Study of Laser Gyro Temperature Compensation Technique on LINS

2019 26th Saint Petersburg International Conference on Integrated Navigation Systems (ICINS) Pub Date : 2019-05-01 DOI:10.23919/ICINS.2019.8769428

D. Qu, Y. Lu, Y. Tao, M. Wang, X. Zhao, X. Lei

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引用次数: 3

Abstract

Laser gyroscope is a high precision optical angular rate sensor. The stability of the Laser gyro output directly affects the navigation accuracy of the laser gyro inertial navigation system (LINS). On base of analyzing the error model of LINS, the temperature compensation model of laser gyroscope is established. The temperature compensation model of the gyro bias is established and the gyro bias is compensated with the method of subsection Hermite interpolation. Data collection and temperature compensation experimentations of the laser gyro in different temperature conditions are designed and completed. The output of the laser gyro is compensated off-line by the gyro pulse compensation model. The gyro bias is recalculated using the compensated gyro calibration data in order to validate the affection of the gyro temperature compensation method. Experiments show that the compensation effect of this temperature compensation method is visible. The laser gyro static output stability is improved more than 3 times at room temperature. Experiments show that this method has high engineering application value.

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激光陀螺温度补偿技术的研究

激光陀螺仪是一种高精度光学角速率传感器。激光陀螺输出的稳定性直接影响激光陀螺惯性导航系统的导航精度。在分析激光陀螺误差模型的基础上，建立了激光陀螺的温度补偿模型。建立了陀螺偏置的温度补偿模型，采用分段埃尔米特插值法对陀螺偏置进行补偿。设计并完成了激光陀螺在不同温度条件下的数据采集和温度补偿实验。采用陀螺脉冲补偿模型对激光陀螺的输出进行离线补偿。利用补偿后的陀螺标定数据重新计算了陀螺偏差，验证了陀螺温度补偿方法的影响。实验表明，该温度补偿方法的补偿效果是明显的。在室温下，激光陀螺静态输出稳定性提高了3倍以上。实验表明，该方法具有较高的工程应用价值。

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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2019 26th Saint Petersburg International Conference on Integrated Navigation Systems (ICINS)

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