光纤陀螺的理论灵敏度是最高的。
想象一个陀螺的上部。
利用软件补偿处理,提高了陀螺的温度性能和线性度。
Temperature performance and linearity were improved with software compensation.
分析了光纤陀螺的研制水平、进展,以及技术市场的发展趋势。
Analysis on manufacture level and developing trend in both technology and market is made.
最后,采用时间序列分析方法建立了半球谐振陀螺的随机误差模型。
Finally, the random error model of HRG is established by using time series analysis method.
你们能用一个5块钱的玩具陀螺来做这些。
我先向你们展示我的陀螺。
这是我的陀螺。
现在让我们确定一下,这个疯狂的陀螺停下来了。
Let's now make sure that this crazy object has come to a halt.
这是暂时最轻的陀螺,我可以找到在世界上。
It is temporarily the lightest gyro that I can find in the world.
摆式加速度计的设计与陀螺设计有很多共同之处。
The pendulous accelerometer design had much in common with the gyro design.
一个个都把自己整得像个陀螺,没日没夜的转悠。
A whole have their own like a gyroscope, around the day and night.
陀螺旋转起来的时候,看上去漂亮极了。
旋转着的陀螺转成一个8字形。
从前,在小男孩的玩具筐里有一只陀螺和一个球。
该文简要说明了开环光纤陀螺仪的特点,综述了国外研制和应用情况。
A brief description of open loop FOG and its application are included in the paper.
将非平稳时间序列的状态空间建模方法用于陀螺过渡过程的分析。
Stationary time series state space modeling method for the analysis of the transition process gyro.
陀螺,是一种很简单的玩具,小孩子自己都可以制作。
Gyro, is a very simple toys, children themselves can be produced.
陀螺是在顶上的吗?
之所以有昼夜,是因为地球像一个巨大的陀螺一样在旋转。
Day and night occur because the earth is spinning like a huge top.
高精度光纤陀螺是导航与制导系统的主要组成部分。
High precision FOG is the important part of navigation and guidance system.
光纤陀螺系统技术研究是惯性技术领域较活跃的方向。
The research of the FOG system is an active trend in inertial technology research.
为了各自的事业,他们就像两个陀螺,在各自的轨道上高速旋转着。
To their cause, just as they are top two in their tracks with high-speed rotation.
这是放置在底部的陀螺仪。
分析了光源强度噪声对光纤陀螺极限灵敏度的影响。
The influence of light source intensity noise on FOG limited sensitivity is analyzed.
那孩子被那快速旋转的陀螺迷住了。
这还需要提供一个陀螺仪的接口稳定的单位。
It will also need to provide an interface for a gyro to stabilise the unit.
这还需要提供一个陀螺仪的接口稳定的单位。
It will also need to provide an interface for a gyro to stabilise the unit.
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