1) micro inertial sensor
微惯性传感器
1.
Mathematical modeling and shock analysis on micro inertial sensor;
微惯性传感器建模及冲击响应分析
2.
Research on null drift fusion filtering algorithm of micro inertial sensors
微惯性传感器零点漂移融合滤波算法研究
2) micro machined inertial sensors
微机械惯性传感器
1.
A Kalman filter used in strapdown AHRS (Attitude Heading Reference System) based on micro machined inertial sensors is introduced.
介绍了一种卡尔曼滤波器 ,它适用于由微机械惯性传感器构成的捷联式航姿系统。
3) inertial sensor
惯性传感器
1.
Present state and perspectives of micromachined inertial sensors;
微机械惯性传感器的技术现状及展望
2.
Through the data fusion of output information of inertial sensors(including accelerometer and gyroscope) and the T-S fuzzy model,the research of the balance and the trajectory tracking of the two-wheeled self-balance robot was completed.
利用多惯性传感器信息融合建立的基于T-S模糊模型的模糊控制器有效地解决了两轮自平衡机器人平衡控制的问题,并同时对轨迹跟踪的问题进行了探讨。
3.
With the aid of inertial sensor and range sensor,a coarse-to-fine strategy was adopted to locate the moving objects in the video sequence.
提出一种融合视觉传感器、微机电惯性传感器和距离传感器信息的运动平台运动目标检测新方法。
4) inertial sensors
惯性传感器
1.
In electro-optical tracking system,fractal noises and white noises have main effects on the precision of inertial sensors,and it is difficult to filter fractal noises by traditional methods.
分形噪声和白噪声是影响光电跟踪系统惯性传感器输出信号精度的重要因素,采用传统的方法很难滤除分形噪声。
2.
Since a vector speed could influence the gyro and accelerometer\'s signals which could affect the gyrocompass alignment,the strapdown gyrocompass correction method of inertial sensors was developed to filter the gyro and accelerometer\'s signals,and the formula of correction method was also deduced.
载体存在速度时会对罗经对准产生影响,因此提出了一种适用于捷联罗经的惯性传感器校正方法,推导了陀螺和加速度计信号校正的公式,将由于载体运动产生的陀螺和加速度计信号滤除,在此基础上结合上述的对准方法完成罗经自对准。
3.
An attitude estimation system based on the inertial sensors was proposed.
针对单轴双轮自平衡车介绍一种基于惯性传感器的姿态检测系统,分析比较各惯性传感器在姿态检测系统中的性能优劣以及功能互补的特点。
6) Inertial and Gravity Sensors
惯性引力传感器
1.
New Type Inertial and Gravity Sensors with Magnetic Fluid Composites;
新型磁流体复合物惯性引力传感器
2.
Novel inertial and gravity sensors based on magnetic fluid;
基于磁流体的新颖惯性引力传感器
补充资料:微生物传感器
分子式:
CAS号:
性质:将微生物和其他材料制成微生物固定化膜,覆盖在电化学电极(如铂电极)上。如荧光假单胞菌,能同化葡萄糖(底物),将其制成固定膜后,因微生物在同化底物时将消耗溶液中的氧,因此用氧电极加以测定,即可得知葡萄糖的含量。
CAS号:
性质:将微生物和其他材料制成微生物固定化膜,覆盖在电化学电极(如铂电极)上。如荧光假单胞菌,能同化葡萄糖(底物),将其制成固定膜后,因微生物在同化底物时将消耗溶液中的氧,因此用氧电极加以测定,即可得知葡萄糖的含量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条