In the resonator fiber-optic gyro (R-FOG), the detection precision of the system is influenced by the polarization-fluctuation deeply.
谐振式光纤陀螺(R - FOG)中,偏振波动引起的检测信号漂移对陀螺系统的检测精度有重要影响。
The detection theory of resonator fiber optic gyro (R-FOG) based on the serrodyne modulation with two frequencies was introduced, and the correlative detection theory in digital system was analyzed.
介绍了基于双频率锯齿波组合调制的谐振式光纤陀螺(R - FOG)的检测原理,分析了数字系统信号相关检测的理论。
Aiming at the non-stationary character of signal noise of fiber optic gyro (FOG) in the stabilized platform, the signal model of FOG and some methods of noise reduction are analyzed and discussed.
针对陀螺稳定平台系统中光纤陀螺信号噪声的非平稳性特点,分析并讨论了光纤陀螺输出信号模型及常用陀螺信号滤波方法的优缺点。
Resonator fiber optic gyro(R-FOG) is a promising candidate for the next generation inertial rotation sensor.
谐振式光纤陀螺(R-FOG)是新一代惯性旋转传感器的代表。
The fundamental step to acquire the rotation rate of fiber optic gyro (FOG) is to detect the differential optic phase.
对光纤陀螺中光相位差的检测是得到所需角速度的基础。
A North Finder system incorporated with a Fiber Optic Gyro (FOG) is introduced in this paper.
该文介绍了一种使用光纤陀螺实现自寻北系统的实现方法。
A North Finder system incorporated with a Fiber Optic Gyro (FOG) is introduced in this paper.
该文介绍了一种使用光纤陀螺实现自寻北系统的实现方法。
应用推荐