The current conditions of gyroscope drift test table and its main parts were presented in this paper.
本文简述了陀螺漂移测试转台及其主要元部件的现状。
Main factors that influence gyroscope drift under the linear vibrating condition are theoretically analyzed.
从理论上分析了在线振动条件下影响陀螺漂移的因素。
This paper shortly introduces the composition, function and process of the 'gyroscope drift measurement and compensation system' in hardware and software.
从硬件、软件两方面简要介绍了所研制的“陀螺仪漂移测试与补偿系统”的组成结构、控制功能及工作过程。
In this paper, the effect of the angle vibration of platform is introduced, in which the pulse modullation of servo loops is made to reduce the gyroscope drift in the INS.
介绍了在平台式惯导系统中 ,由脉冲调宽加矩方式控制的惯性稳定平台的角振动对陀螺漂移所产生的影响。
This method solves the problem of rapid azimuth alignment on the moving base, dramatically reduces the requirement of carrier's movement and gives a means of measure gyroscope drift.
该对准方法解决了动基座上方位快速对准的难题,大大降低了对载体的机动要求,同时为陀螺测漂提供了手段。
Gyroscope drift and its measurement. B. Principle of typical gyroscope instruments, such as gyro compass, gyro north finder, gyro horizon, platform compass, rate gyroscope and integrating gyroscope.
典型陀螺仪器(包括陀螺罗经、陀螺找北仪、陀螺地平仪、平台罗经、速率陀螺仪和积分陀螺仪等)的工作原理;
Dynamical characteristics of the gyroscope during spin-up and erection procedure, and the influence of the stray magnetic field on gyro's drift and speed attenuation are investigated.
讨论了陀螺在驱动、定向过程中的动力学特性,以及杂散磁场对陀螺漂移和转速衰减的影响。
In practice, gyroscope noise and drift will introduce errors that need to be compensated for.
实际应用当中,陀螺仪传感器噪声和漂移会产生致命错误,必须被补偿矫正。
Gyroscope static drift coefficient of inertial platform can be separated wholly by using the method.
该方法可完整地分离出惯性平台陀螺仪各项静态漂移系数。
Azimuth Angle is calculated exactly through two-position method and constant drift of gyroscope is cancelled.
通过双位置方法准确计算出载体的方位角,并且抵消了陀螺的常值漂移对寻北精度的影响。
The scheme can calibrate static error coefficients of gyroscope integrated. Thus, the gyro drift is reduced.
提出的标定方案可以有效标定陀螺组合静态误差系数,从而减少陀螺漂移。
Installation error of gyroscope integrated can lead to gyro drift. Thus, the precision of INS is influenced.
陀螺组合的安装误差会引起陀螺漂移,从而对惯导系统产生影响。
The compensating method for MEMS gyroscope random drift error is discussed.
从工程实用的角度出发,探讨了MEMS陀螺仪随机漂移误差的有效补偿方法。
This method not only improves the dynamic range but also solves the drift problem of the open loop fiber optic gyroscope.
该方法不仅提高了开环光纤陀螺系统的动态范围,而且很好地解决了光纤陀螺的漂移问题。
In order to solve this problem, an algorithm which adopts attitude matching transfer alignment method to estimate the random constant drift of the low accuracy gyroscope is introduced.
为了解决这一问题,提出了以装订值作为姿态基准,采用姿态匹配传递对准对弹载低精度陀螺仪的随机常值漂移进行估计的算法。
The equipment and environment of fiber of gyroscope (FOG) zero-drift experiment are introduced.
介绍了光纤陀螺零漂实验的设备环境,硬件和软件的构成及数据采集过程。
The random constant drift of the low accuracy gyroscope has a serious effect for attitude algorithm.
弹载低精度陀螺仪的随机常值漂移严重影响到弹体姿态解算的精度。
The equipment and environment of fiber-optic gyroscope (FOG) zero-drift experiment are introduced.
介绍了光纤陀螺零漂实验的设备环境,硬件和软件的构成及数据采集过程。
The equipment and environment of fiber-optic gyroscope (FOG) zero-drift experiment are introduced.
介绍了光纤陀螺零漂实验的设备环境,硬件和软件的构成及数据采集过程。
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