A design method of the micro inertial measurement unit (MIMU) system is introduced.
介绍了一种微惯性测量组合(MIMU)系统的设计方法。
A low cost calibration system for micro inertial measurement unit (MIMU) has been designed.
设计了一台低成本的微惯性测量组合标定系统。
A new nine-accelerometer configuration of non-gyro inertial measurement unit (NGIMU) is presented, with its experiment system built.
提出了九加速度计无陀螺惯性测量组合(NGIMU)配置方案,并建立了其实验系统。
The acceleration sensor is the key basic component for IMU (Inertial Measurement Unit) to sense and analysis the motion information.
加速度传感器是一种十分重要的力学量传感器,是惯性测量组合(IMU)系统的基础元件之一。
This paper presented one single chip micro inertial measurement unit based on ordinary bulk micromachining process such as dissolved wafer process.
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 research establishes the bases for practice application of gyros free inertial measurement unit and has some guidance for selecting the accele…
该文的研究为无陀螺惯性测量组合的实际应用奠定了基础,并对加速度计的选用具有一定的指导意义。
This research establishes the bases for practice application of gyros free inertial measurement unit and has some guidance for selecting the accelerometers.
该文的研究为无陀螺惯性测量组合的实际应用奠定了基础,并对加速度计的选用具有一定的指导意义。
Micro inertial Measurement Unit (MIMU) which made up of micro inertial sensors gives a great progress in the miniaturization and micromation of inertial instrument.
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。
MEMS inertial measurement unit is an accelerometer and gyroscope combination device, developed by using MEMS technology. It has small volume, low cost and high reliability.
MEMS惯性测量单元是采用MEMS技术研制的加速度计和陀螺组合器件,它具有体积小、成本低、可靠性高等优点。
QUBIK inertial measurement unit is a new inertial system which is characterized by small size, light mass, high ruggedness, low cost, simple structure and adequate accuracy.
QUBIK惯性测量装置是一种新的系统。它具有尺寸小、质量轻、坚固、成本低、结构简单和中等精度等特点。
By analyzing the error model of Inertial Measurement Unit (IMU) and the navigation error propagating function, the mechanism of error rotating compensation method was illustrated.
通过分析惯性测量组件的误差模型和旋转式捷联系统误差传播方程,解释了旋转误差补偿的机理。
By analyzing the error model of Inertial Measurement Unit (IMU) and the navigation error propagating function, the mechanism of error rotating compensation method was illustrated.
通过分析惯性测量组件的误差模型和旋转式捷联系统误差传播方程,解释了旋转误差补偿的机理。
应用推荐