A Novelty Temperature Compensation Model for Dual-Mass Vibration MEMS Gyroscope Based on Machine Learning and TTAO-VMD Algorithm
Wenbo Tan, Yan Wang, Xinwang Wang

TL;DR
This paper introduces a new temperature compensation model for MEMS gyroscopes using machine learning and signal processing to improve navigation accuracy.
Contribution
A novel temperature compensation model for dual-mass MEMS gyroscopes combining TTAO-VMD, 1D-CNN-Bi-GRU-Attention, and SHAKF algorithms.
Findings
The proposed model reduces angle random walk from 18.56 °/h to 0.17 °/h.
Bias instability is decreased from 32.76 °/h to 0.82 °/h.
Abstract
The output of MEMS gyroscopes is highly vulnerable to ambient temperature variations, which induce temperature drift errors and degrade navigation precision. Consequently, temperature compensation for MEMS gyroscope outputs is of critical importance. To address this issue, this study proposes a novel temperature compensation model for the dual-mass vibration MEMS gyroscope (DMVMG), which integrates the TTAO-VMD, 1D-CNN-Bi-GRU-Attention, and SHAKF algorithms. The implementation process of the proposed model is as follows: firstly, the structural configuration and fundamental operating principle of the DMVMG are elaborated. Secondly, the temperature error compensation model is constructed based on the fusion of the TTAO-VMD, 1D-CNN-Bi-GRU-Attention, and SHAKF algorithms. Thirdly, the raw output signal of the DMVMG is preprocessed using the TTAO-VMD algorithm, which decomposes the signal…
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Taxonomy
TopicsInertial Sensor and Navigation · Advanced MEMS and NEMS Technologies · Piezoelectric Actuators and Control
