Robotics Institute: Nonlinear Regression Model of a Low-g MEMS Accelerometer

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Nonlinear Regression Model of a Low-g MEMS Accelerometer
W. Ang, P. Khosla, and C. Riviere
IEEE Sensors Journal, Vol. 7, No. 1, January, 2007, pp. 81-88.

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Abstract

This paper proposes a nonlinear regression model of a microelectromechanical systems capacitive accelerometer, targeted to be used in tilt sensing and low- motion-tracking applications. The proposed model for the accelerometer's deterministic errors includes common physical parameters used to rate an accelerometer: scale factor, bias, and misalignment. Simple experiments used to reveal the behavior and characteristics of these parameters are described. A phenomenological modeling method is used to establish mathematical representations of these parameters in relation to errors such as nonlinearity and cross-axis effect, without requiring a complete understanding of the underlying physics. Tilt and motion-sensing experiments show that the proposed model reduces sensing errors to a level close to the residual stochastic noise.

Notes

Sponsor: NIH, NSF
Grant ID: R01EB000526, EEC-9731748

Associated center: MRTC
Associated lab/group: Medical Instrumentation Lab
Associated project: Micron: Intelligent Microsurgical Instruments

Number of pages: 8

Text Reference

W. Ang, P. Khosla, and C. Riviere, "Nonlinear Regression Model of a Low-g MEMS Accelerometer," IEEE Sensors Journal, Vol. 7, No. 1, January, 2007, pp. 81-88.

BibTeX Reference

@article{Ang_2007_5984,
   author = "Wei-Tech Ang and Pradeep Khosla and Cameron Riviere",
   title = "Nonlinear Regression Model of a Low-g MEMS Accelerometer",
   journal = "IEEE Sensors Journal",
   month = "January",
   year = "2007",
   volume = "7",
   number = "1",
   pages = "81-88"
}

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