Volume 2, 2023

Integration of capillaric strain sensors toward recognition of human movements

Abstract

Capillaric strain sensors (CSSs) operate based on the volume expansion of closed microfluidic networks in response to linear strain and have tunable directionality and sensitivity in a large range. The unique advantages of CSSs for integrated sensor development can simplify the human movement recognition by eliminating the need for intensive computational power and reliance on machine learning algorithms. We borrowed strategies from electrical digital circuits for the integration of CSSs in OR and AND configurations. We have fabricated devices according to these strategies. To validate their functionality, we first performed tests on a benchtop model. We have mapped the strain field on the sensors using digital image correlation and used it in combination with a mathematical procedure that we have developed to accurately predict the response of the integrated CSSs (iCSSs). Finally, we have skin mounted the iCSS patches (2 × 2 cm2) and conducted tests on a human subject. The results demonstrate that skin-strain-field mapping will be an enabling tool for iCSS design toward the recognition of human movements.

Graphical abstract: Integration of capillaric strain sensors toward recognition of human movements

Supplementary files

Article information

Article type
Paper
Submitted
10 Nov 2022
Accepted
24 Nov 2022
First published
06 Dec 2022
This article is Open Access
Creative Commons BY-NC license

Sens. Diagn., 2023,2, 212-224

Integration of capillaric strain sensors toward recognition of human movements

H. Gasvoda, N. Cmager, R. Altay, J. Y. Lee and I. E. Araci, Sens. Diagn., 2023, 2, 212 DOI: 10.1039/D2SD00201A

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