Abstract
The electrical and mechanical properties of textile
sensors are highly dependent on their environment, enabling
unobtrusive sensing applications. However, prolonged usage and
ageing effects further affect these applications, especially when
flexibility and washability are required. These effects reduce the
accuracy and reliability of textile sensors and decreases their
usable lifetime. Since there are neither suitable physical models
nor existing datasets of aged textiles for newly developed textile
sensors, accelerated ageing tests are required to generate enough
information for the modelling and training process. This paper
uses various types of accelerated aged conductive textiles and
analyses their behaviour. Models of wear and ageing can be used
to improve the accuracy of sensor systems, assess their reliability,
and better understand the ageing process of textile sensors. This
allows to increase the usable lifetime of textile sensor systems and
give an estimate of reliability of textile based sensor readings for
security critical applications.
sensors are highly dependent on their environment, enabling
unobtrusive sensing applications. However, prolonged usage and
ageing effects further affect these applications, especially when
flexibility and washability are required. These effects reduce the
accuracy and reliability of textile sensors and decreases their
usable lifetime. Since there are neither suitable physical models
nor existing datasets of aged textiles for newly developed textile
sensors, accelerated ageing tests are required to generate enough
information for the modelling and training process. This paper
uses various types of accelerated aged conductive textiles and
analyses their behaviour. Models of wear and ageing can be used
to improve the accuracy of sensor systems, assess their reliability,
and better understand the ageing process of textile sensors. This
allows to increase the usable lifetime of textile sensor systems and
give an estimate of reliability of textile based sensor readings for
security critical applications.
Originalsprache | Englisch |
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Titel | IEEE International Conference on Flexible, Printable Sensors and Systems |
Publikationsstatus | Angenommen/Im Druck - 1 Apr. 2022 |
Veranstaltung | IEEE International Conference on Flexible, Printable Sensors and Systems - Vienna, Österreich Dauer: 10 Juli 2022 → 13 Juli 2022 https://2022.ieee-fleps.org |
Publikationsreihe
Name | Flexible and Printable Sensors and Systems (FLEPS), 2022 IEEE International Conference on |
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Konferenz
Konferenz | IEEE International Conference on Flexible, Printable Sensors and Systems |
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Kurztitel | FLEPS 2022 |
Land/Gebiet | Österreich |
Ort | Vienna |
Zeitraum | 10.07.2022 → 13.07.2022 |
Internetadresse |