An Approach for Observing and Modeling Errors in MEMS-Based Inertial Sensors under Vehicle Dynamic

Yannick Stebler; Stéphane Guerrier; Jan Skaloud

doi:10.1109/TIM.2015.2444239

An Approach for Observing and Modeling Errors in MEMS-Based Inertial Sensors under Vehicle Dynamic

Yannick Stebler
, Stéphane Guerrier
, Jan Skaloud

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Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

This paper studies the error behavior of low-cost inertial sensors in dynamic conditions. After proposing a method for error observations per sensor (i.e., gyroscope or accelerometer) and axes, their properties are estimated via the methodology of generalized method of wavelet moments. The developed model parameters are compared with those obtained under static conditions. Then, an attempt is presented to link the parameters of the established model to the dynamic of the vehicle. It is found that a linear relation explains a large portion of the exhibited variability. These findings suggest that the static methods employed for the calibration of inertial sensors could be improved when exploiting such a relationship.

Original language	English (US)
Article number	7159103
Pages (from-to)	2926-2936
Number of pages	11
Journal	IEEE Transactions on Instrumentation and Measurement
Volume	64
Issue number	11
DOIs	https://doi.org/10.1109/TIM.2015.2444239
State	Published - Nov 2015

All Science Journal Classification (ASJC) codes

Instrumentation
Electrical and Electronic Engineering

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10.1109/TIM.2015.2444239

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abstract = "This paper studies the error behavior of low-cost inertial sensors in dynamic conditions. After proposing a method for error observations per sensor (i.e., gyroscope or accelerometer) and axes, their properties are estimated via the methodology of generalized method of wavelet moments. The developed model parameters are compared with those obtained under static conditions. Then, an attempt is presented to link the parameters of the established model to the dynamic of the vehicle. It is found that a linear relation explains a large portion of the exhibited variability. These findings suggest that the static methods employed for the calibration of inertial sensors could be improved when exploiting such a relationship.",

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AB - This paper studies the error behavior of low-cost inertial sensors in dynamic conditions. After proposing a method for error observations per sensor (i.e., gyroscope or accelerometer) and axes, their properties are estimated via the methodology of generalized method of wavelet moments. The developed model parameters are compared with those obtained under static conditions. Then, an attempt is presented to link the parameters of the established model to the dynamic of the vehicle. It is found that a linear relation explains a large portion of the exhibited variability. These findings suggest that the static methods employed for the calibration of inertial sensors could be improved when exploiting such a relationship.

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An Approach for Observing and Modeling Errors in MEMS-Based Inertial Sensors under Vehicle Dynamic

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