Optimum gravity vector and vertical acceleration estimation using a tri-axial accelerometer for falls and normal activities

This study aims to determine an optimum estimate for the gravitational vector and vertical acceleration profiles using a body-worn tri-axial accelerometer during falls and normal activities of daily living (ADL), validated using a camera based motion analysis system. Five young healthy subjects perf...

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Bibliographic Details
Main Authors: Bourke, A. K., O'Donovan, K., Clifford, A., Olaighin, G., Nelson, J.
Format: Conference Proceeding
Language:English
Subjects:
Acceleration
Accelerometers
Delay
IIR filters
Low pass filters
Optical filters
Vectors
Online Access:Request full text
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Summary:This study aims to determine an optimum estimate for the gravitational vector and vertical acceleration profiles using a body-worn tri-axial accelerometer during falls and normal activities of daily living (ADL), validated using a camera based motion analysis system. Five young healthy subjects performed a number of simulated falls and normal ADL while trunk kinematics were measured by both an optical motion analysis system and a tri-axial accelerometer. Through low-pass filtering of the trunk tri-axial accelerometer signal between 1Hz and 2.7Hz using a 1 st order or higher, Butterworth IIR filter, accurate gravity vector profile can be obtained using the method described here. Results: a high mean correlation (≥0.83: Coefficient of Multiple Correlations) and low mean percentage error (≤2.06m/s 2 ) were found between the vertical acceleration profile generated from the tri-axial accelerometer based sensor to those from the optical motion capture system. This proposed system enables optimum gravity vector and vertical acceleration profiles to be measured from the trunk during falls and normal ADL.
ISSN:1094-687X
1558-4615
2694-0604
DOI:10.1109/IEMBS.2011.6091947