设计了一台低成本的微惯性测量组合标定系统。
A low cost calibration system for micro inertial measurement unit (MIMU) has been designed.
介绍了一种微惯性测量组合(MIMU)系统的设计方法。
A design method of the micro inertial measurement unit (MIMU) system is introduced.
论文基于普通的体硅工艺设计实现了一个单片集成式硅微惯性测量组合。
This paper presented one single chip micro inertial measurement unit based on ordinary bulk micromachining process such as dissolved wafer process.
因而选用动态特性好的加速度计有助于提高无陀螺微惯性测量组合的性能。
So the selection of accelerometers having the best dynamic characteristics helps to improve the features of gyro free micro inertial measurement units.
本文以压阻式加速度计为例,探讨了其动态特性对无陀螺微惯性测量组合的影响。
The dynamic characteristics of accelerometers working on gyro free micro inertial measurement units was discussed, with a piezoresistive accelerometer as an example.
本文的研究工作正是针对提高微惯性元件和微惯性测量组合可靠性及精度这一中心展开的。
In the paper, a series of research work was performed for improvement of reliability and precision of MIMU.
采用微机械惯性敏感器的微惯性测量组合使得惯性仪表小型化和微型化技术产生了一次新的飞跃。
Micro inertial Measurement Unit (MIMU) which made up of micro inertial sensors gives a great progress in the miniaturization and micromation of inertial instrument.
但是,与传统的惯性测量组合相比,微惯性测量组合的精度明显偏低,这极大地限制了它的应用。
However, comparing with conventional inertial measurement components, MIMU has lower precision, which severely handicap its application.
针对微惯性测量组合无法长时间单独工作、GPS卫星信号不稳定的问题,提出MIMU/GPS组合导航的方法。
MIMU/GPS integrated method is proposed for solving the problem that MIMU can not work alone for long time and the signal of GPS is not stable.
针对微惯性测量组合无法长时间单独工作、GPS卫星信号不稳定的问题,提出MIMU/GPS组合导航的方法。
MIMU/GPS integrated method is proposed for solving the problem that MIMU can not work alone for long time and the signal of GPS is not stable.
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