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基于动态方差模型的自适应滤波方法在降低 MEMS 陀螺仪随机误差中的应用。

An Adaptive Filtering Approach Based on the Dynamic Variance Model for Reducing MEMS Gyroscope Random Error.

机构信息

School of Instrumentation and Optoelectronic Engineering, Beihang University, Beijing 100191, China.

Electronic Engineering Research Institute, China Academy of Engineering Physics, Mianyang 621900, China.

出版信息

Sensors (Basel). 2018 Nov 14;18(11):3943. doi: 10.3390/s18113943.

Abstract

To improve the dynamic random error compensation accuracy of the Micro Electro Mechanical System (MEMS) gyroscope at different angular rates, an adaptive filtering approach based on the dynamic variance model was proposed. In this paper, experimental data were utilized to fit the dynamic variance model which describes the nonlinear mapping relations between the MEMS gyroscope output data variance and the input angular rate. After that, the dynamic variance model was applied to online adjustment of the Kalman Filter measurement noise coefficients. The proposed approach suppressed the interference from the angular rate in the filtering results. Dynamic random errors were better estimated and reduced. Turntable experiment results indicated that the adaptive filtering approach compensated for the MEMS gyroscope dynamic random error effectively both in the constant angular rate condition and the continuous changing angular rate condition, thus achieving adaptive dynamic random error compensation.

摘要

为了提高微机电系统(MEMS)陀螺仪在不同角速率下的动态随机误差补偿精度,提出了一种基于动态方差模型的自适应滤波方法。本文利用实验数据对动态方差模型进行拟合,该模型描述了 MEMS 陀螺仪输出数据方差与输入角速率之间的非线性映射关系。然后,将动态方差模型应用于卡尔曼滤波测量噪声系数的在线调整。所提出的方法抑制了滤波结果中角速率的干扰。动态随机误差得到了更好的估计和降低。转台实验结果表明,该自适应滤波方法在恒角速度和连续变角速度条件下均能有效补偿 MEMS 陀螺仪的动态随机误差,从而实现自适应动态随机误差补偿。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f59f/6263982/47b23eea485d/sensors-18-03943-g001.jpg

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