Optical Bend Sensing for Wearable Goniometry: Exploring the Comfort/Accuracy Tradeoff

Lucy E Dunne

doi:10.1108/RJTA-14-04-2010-B008

Optical Bend Sensing for Wearable Goniometry: Exploring the Comfort/Accuracy Tradeoff

Lucy E Dunne

Apparel Design

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

5 Scopus citations

Abstract

This paper explores some initial variables that impact the sensor signal and accuracy of a garment-integrated bend sensor used to measure the flexion and extension of the knee. An optical fiber bend sensor has been evaluated in garments of 6 sizes on an animatronic running mannequin. The resulting sensor signals are compared for correlation, signal-to-noise ratio, signal variability, and morphology. Subsequently, a knee-brace application is evaluated on the same signal parameters in repetitive donning and doffing trials for consistency between trials. The results show the impact of these variables on the amplitude, variability, and noise in the sensor signal.

Original language	English (US)
Pages (from-to)	73-80
Number of pages	8
Journal	Research Journal of Textile and Apparel
Volume	14
Issue number	4
DOIs	https://doi.org/10.1108/RJTA-14-04-2010-B008
State	Published - Nov 1 2010

Keywords

Apparel
Body Sensing
Smart Clothing
Wearable Technology

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title = "Optical Bend Sensing for Wearable Goniometry: Exploring the Comfort/Accuracy Tradeoff",

abstract = "This paper explores some initial variables that impact the sensor signal and accuracy of a garment-integrated bend sensor used to measure the flexion and extension of the knee. An optical fiber bend sensor has been evaluated in garments of 6 sizes on an animatronic running mannequin. The resulting sensor signals are compared for correlation, signal-to-noise ratio, signal variability, and morphology. Subsequently, a knee-brace application is evaluated on the same signal parameters in repetitive donning and doffing trials for consistency between trials. The results show the impact of these variables on the amplitude, variability, and noise in the sensor signal.",

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AB - This paper explores some initial variables that impact the sensor signal and accuracy of a garment-integrated bend sensor used to measure the flexion and extension of the knee. An optical fiber bend sensor has been evaluated in garments of 6 sizes on an animatronic running mannequin. The resulting sensor signals are compared for correlation, signal-to-noise ratio, signal variability, and morphology. Subsequently, a knee-brace application is evaluated on the same signal parameters in repetitive donning and doffing trials for consistency between trials. The results show the impact of these variables on the amplitude, variability, and noise in the sensor signal.

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Optical Bend Sensing for Wearable Goniometry: Exploring the Comfort/Accuracy Tradeoff

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