本文介绍了一种利用舒勒回路的特性测定惯性元件标度因数的方法。
This paper offers a method to measure the scale factor of inertia components on the basie the characteristic of Schuler Loop.
为了应用于高精度领域,必须提高光纤陀螺标度因数的线性度和稳定性。
The scale factor linearity and stability of the IFOG must be improved in order to apply IFOG to high-precision case.
结合加速度计零位和标度因数的温度误差模型,采用了相应的误差补偿算法。
The proper error-compensation method is adopted based on the temperature error model of the accelerometer.
在惯性导航系统中,惯性元件的标度因数误差对系统的误差产生了极大的影响。
The scale-factor error of inertia component is greatly influential to the precision of Inertial Navigation System (INS).
该量是标度因数离散程度的一个有效的量度。就这个量来说,也要求正态性假定。
For this quantity to be a meaningful measure of dispersion of the scale factors, the assumption of normality is again required.
针对全数字闭环光纤陀螺,分析阶梯波复位不理想时对陀螺标度因数和零偏稳定性的影响。
Aiming at all digital closed-loop fiber optic gyroscope, the influence of scale factor and bias stability was analyzed when ramp voltage reset was no ideal.
光纤陀螺与温度相关误差项主要为零漂和标度因数,输入轴失准角也是影响光纤陀螺应用的一个重要误差项。
The errors of FOG involved with temperature are zero bias and scale factor. Input axis misalignment is another important error with temperature.
光纤陀螺与温度相关误差项主要为零漂和标度因数,输入轴失准角也是影响光纤陀螺应用的一个重要误差项。
The errors of FOG involved with temperature are zero bias and scale factor. Input axis misalignment is another important error with temperature.
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