Sensing of body movement by stretchable triboelectric embroidery aimed at healthcare and sports activity monitoring
- Author
- Hasan Riaz Tahir (UGent) , Benny Malengier (UGent) , Granch Berhe Tseghai and Lieva Van Langenhove (UGent)
- Organization
- Abstract
- In this work, we introduced an embroidery-based stretchable (up to 60–70%) triboelectric nano-generator that could be attached to different parts of the human body such as fingers, knee, elbow, back, or shoulders, to sense the body movement. It can be used as activity recognition for health care and sports activity monitoring. The sensor was composed of different yarns embroidered on a stretchable conductive substrate, allowing it to sense diverse mechanical deformation of different body parts. Different stitching styles, patterns, stitch lengths, and shapes have been selected to cater to the unidirectional, bidirectional, and multidirectional force and obtain maximum movement flexibility. In order to do embroidery on a stretchable substrate, a non-stretchable water-soluble second substrate has been added before embroidering and is afterward removed by application of steam. A sample of 1.5 × 6 cm2 was used for sensing finger movement and generated a peak to peak voltage of 274.5 mV. The amount of generated voltage depended upon the application area on the body and its deformation, thread type, stitch type, stitch length, and shape of embroidery. A stitch length of more than 2 mm with a line density of 1 line per mm resulted in a stretchable sample. The state-of-the-art of the developed sensors is their low price, flexibility, and low weight. They are all obtained with commercially available embroidery yarns and commercially available technology for their development.
- Keywords
- stretchable sensor, embroidery, triboelectric yarns, activity monitoring, flexible, mechanical deformation
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8746625
- MLA
- Tahir, Hasan Riaz, et al. “Sensing of Body Movement by Stretchable Triboelectric Embroidery Aimed at Healthcare and Sports Activity Monitoring.” ENGINEERING PROCEEDINGS (BASEL), vol. 15, no. 1, 2022, doi:10.3390/engproc2022015004.
- APA
- Tahir, H. R., Malengier, B., Tseghai, G. B., & Van Langenhove, L. (2022). Sensing of body movement by stretchable triboelectric embroidery aimed at healthcare and sports activity monitoring. ENGINEERING PROCEEDINGS (BASEL), 15(1). https://doi.org/10.3390/engproc2022015004
- Chicago author-date
- Tahir, Hasan Riaz, Benny Malengier, Granch Berhe Tseghai, and Lieva Van Langenhove. 2022. “Sensing of Body Movement by Stretchable Triboelectric Embroidery Aimed at Healthcare and Sports Activity Monitoring.” In ENGINEERING PROCEEDINGS (BASEL). Vol. 15. https://doi.org/10.3390/engproc2022015004.
- Chicago author-date (all authors)
- Tahir, Hasan Riaz, Benny Malengier, Granch Berhe Tseghai, and Lieva Van Langenhove. 2022. “Sensing of Body Movement by Stretchable Triboelectric Embroidery Aimed at Healthcare and Sports Activity Monitoring.” In ENGINEERING PROCEEDINGS (BASEL). Vol. 15. doi:10.3390/engproc2022015004.
- Vancouver
- 1.Tahir HR, Malengier B, Tseghai GB, Van Langenhove L. Sensing of body movement by stretchable triboelectric embroidery aimed at healthcare and sports activity monitoring. In: ENGINEERING PROCEEDINGS (BASEL). 2022.
- IEEE
- [1]H. R. Tahir, B. Malengier, G. B. Tseghai, and L. Van Langenhove, “Sensing of body movement by stretchable triboelectric embroidery aimed at healthcare and sports activity monitoring,” in ENGINEERING PROCEEDINGS (BASEL), Manchester, UK, 2022, vol. 15, no. 1.
@inproceedings{8746625,
abstract = {{In this work, we introduced an embroidery-based stretchable (up to 60–70%) triboelectric nano-generator that could be attached to different parts of the human body such as fingers, knee, elbow, back, or shoulders, to sense the body movement. It can be used as activity recognition for health care and sports activity monitoring. The sensor was composed of different yarns embroidered on a stretchable conductive substrate, allowing it to sense diverse mechanical deformation of different body parts. Different stitching styles, patterns, stitch lengths, and shapes have been selected to cater to the unidirectional, bidirectional, and multidirectional force and obtain maximum movement flexibility. In order to do embroidery on a stretchable substrate, a non-stretchable water-soluble second substrate has been added before embroidering and is afterward removed by application of steam. A sample of 1.5 × 6 cm2 was used for sensing finger movement and generated a peak to peak voltage of 274.5 mV. The amount of generated voltage depended upon the application area on the body and its deformation, thread type, stitch type, stitch length, and shape of embroidery. A stitch length of more than 2 mm with a line density of 1 line per mm resulted in a stretchable sample. The state-of-the-art of the developed sensors is their low price, flexibility, and low weight. They are all obtained with commercially available embroidery yarns and commercially available technology for their development.}},
articleno = {{4}},
author = {{Tahir, Hasan Riaz and Malengier, Benny and Tseghai, Granch Berhe and Van Langenhove, Lieva}},
booktitle = {{ENGINEERING PROCEEDINGS (BASEL)}},
issn = {{2673-4591}},
keywords = {{stretchable sensor,embroidery,triboelectric yarns,activity monitoring,flexible,mechanical deformation}},
language = {{eng}},
location = {{Manchester, UK}},
number = {{1}},
pages = {{5}},
title = {{Sensing of body movement by stretchable triboelectric embroidery aimed at healthcare and sports activity monitoring}},
url = {{http://doi.org/10.3390/engproc2022015004}},
volume = {{15}},
year = {{2022}},
}
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