信号处理电路是干涉型光纤加速度计系统中的重要部分。
The signal processing system is the key component for the fiber optic accelerometer system.
本文根据近轴子午光线方程,研究了自聚焦透镜光纤加速度计的工作原理;
Based on paraxial meridian-ray equation, the principle of fibre accelerometer using self-focussing lens is studied;
研究了一种新颖的光纤加速度计,阐述了三光纤grin透镜加速度敏感元件的工作原理及其结构设计。
In this paper, a novel Fiber-Optic accelerometer was studied. It demonstrates the operational principle and structure design of the three-fiber accelerometer using a GRIN lens.
本论文在第二部分从不同方面详细介绍了反射式光强调制型光纤加速度计的基础理论,并由此提出了一种新型的加速度计测量方案。
In second part of this paper, base theory of the fiber optic accelerometer is presented in details, according to the principle of reflective intensity modulations new experimental scheme is described.
LCR- 100罗经ahrs系统是寻北姿态航向参考系统,基于最先进的光纤陀螺和微机电(MEMS)加速度计。
The LCR-100 Gyrocompass AHRS is a north finding attitude and heading reference system based on a state-of-the-art fibre-optic gyro and micro-electromechanical (MEMS) accelerometers.
首先,针对实际系统中所用的光纤陀螺、石英挠性加速度计组件,分别建立了相应的静态误差模型。
Above all, according to the FOG and quartz accelerometer adopted in navigation system, the static error models of IMU (Inertial Measurement Units) are built up.
介绍一种新型光纤非接触加速度计。
介绍一种新型光纤非接触加速度计。
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