介绍了利用激光光栅干涉技术进行冲击加速度校准的一种方法,并着重讨论微分加速度的动态特性校准。
An accelerometer shock dynamic calibration method with a grating laser interference technique is described, and the differential acceleration evaluation is specially discussed.
由气门加速度积分和气门升程微分得到两路气门速度信号。
Two kinds of valve velocity data were got from valve acceleration integral and displacement differential.
研究表明,追逃双方机器人的控制作用使得彼此的加速度方向一致时,双方都取得最优控制策略,同时也证明了微分对策方法在处理碰撞问题时的有效性。
The research indicates that the controlling strategy is optimal when they have the same acceleration direction, and the differential games are efficient in dealing with collision problem.
基于力学振动原理,导出谐振器振动的微分方程,讨论了振梁型加速度计的设计原理。
Based on mechanics of vibration, the resonant differential equation of resonator is derived, and the design principle is discussed for the vibrating beam accelerometer.
采用直接法对滑枕位移公式进行微分,求出滑枕的速度及加速度公式。
The displacement formula of ram is differentiated directly, and the velocity and acceleration formulas are obtained.
利用GPS差分技术确定载体运动加速度,其方法有三种:位置微分法、速度微分法和加速度直接解算法。
There are three methods for the determination of the acceleration based on differential GPS carrier-phase technology: position differentiating, velocity differentiating and direct carrier method.
用微分几何理论和D-H法研究了2R-1P3R 双臂机器人用于异形石材加工的速度协调和加速度协调,导出了由工艺给定的切削加工速度求解各关节运动速度和加速度的计算公式。
In this paper, velocity harmonization and acceleration harmonization of a 2R-1P3R two-arm robot have been studied for special-shaped surface stone with the differential geometry theory and D-H method.
本文基于高精度绝对式光电轴角编码器,提出采用二阶跟踪微分处理的方法,以准确测量发射车起竖臂工作过程中的角加速度。
The reason of the error in axle-angle position coder for precision tracking and instrumentation radar is analyzed in this paper, and the concrete measures of controlling the error are also proposed.
本文基于高精度绝对式光电轴角编码器,提出采用二阶跟踪微分处理的方法,以准确测量发射车起竖臂工作过程中的角加速度。
The reason of the error in axle-angle position coder for precision tracking and instrumentation radar is analyzed in this paper, and the concrete measures of controlling the error are also proposed.
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