Electronic textiles (e-textiles) are an emerging technology comprised of electronic circuit systems embedded into the fabric using traditional textile techniques such as knitting and weaving. Such systems can be formed using off-the-shelf passive components and integrated circuits (ICs) available commercially. An e-textile switching mechanism can be provided by proximity and touch sensing input behavior from a human hand to switch circuits, for example, turning on an LED for visual verification of successful switching. Challenges to be overcome to achieve reliable systems include optimised circuit sampling rate, detection sensitivity, and sensing electrode dimensions when operating among textile fibres. This paper presents development of a ...
Electronic textiles, or smart textiles, is a field that is growing due to the opportunities it provi...
In smart textiles, there is an effort to create electronic elements directly as part of the carrier ...
Conductive gel needs to be applied between the skin and standard medical electrodes when monitoring ...
Capacitive sensing is used in manufacturing E-textiles for touch and proximity-sensing applications....
Textiles, in combination with advances in materials, intelligent sensing and signal processing, offe...
Dataset supports the thesis entitled 'Tailored Polydimethylsiloxane Circuit Encapsulation for Wa...
An ambition exists in literature for electronic textiles (e-textiles) to resemble traditional textil...
Electrically conductive textiles have many potential applications, such as sensors, static charge di...
Many studies have been conducted to develop electronic skin (e-skin) and flexible wearable textiles ...
This research was to focus on integrating printed textile circuit board, FPCB (flexible printed circ...
Wearable sensor technologies, especially continuous monitoring of various human health conditions, a...
This paper presents a technology to integrate electronics at the thread level in woven textiles. Fle...
This paper reports a planar capacitive proximity sensor fully dispenser printed on a standard polyes...
This paper reports a planar capacitive proximity sensor fully dispenser printed on a standard polyes...
With the recent convergence of electronics and textile technology, various kinds of smart wearables ...
Electronic textiles, or smart textiles, is a field that is growing due to the opportunities it provi...
In smart textiles, there is an effort to create electronic elements directly as part of the carrier ...
Conductive gel needs to be applied between the skin and standard medical electrodes when monitoring ...
Capacitive sensing is used in manufacturing E-textiles for touch and proximity-sensing applications....
Textiles, in combination with advances in materials, intelligent sensing and signal processing, offe...
Dataset supports the thesis entitled 'Tailored Polydimethylsiloxane Circuit Encapsulation for Wa...
An ambition exists in literature for electronic textiles (e-textiles) to resemble traditional textil...
Electrically conductive textiles have many potential applications, such as sensors, static charge di...
Many studies have been conducted to develop electronic skin (e-skin) and flexible wearable textiles ...
This research was to focus on integrating printed textile circuit board, FPCB (flexible printed circ...
Wearable sensor technologies, especially continuous monitoring of various human health conditions, a...
This paper presents a technology to integrate electronics at the thread level in woven textiles. Fle...
This paper reports a planar capacitive proximity sensor fully dispenser printed on a standard polyes...
This paper reports a planar capacitive proximity sensor fully dispenser printed on a standard polyes...
With the recent convergence of electronics and textile technology, various kinds of smart wearables ...
Electronic textiles, or smart textiles, is a field that is growing due to the opportunities it provi...
In smart textiles, there is an effort to create electronic elements directly as part of the carrier ...
Conductive gel needs to be applied between the skin and standard medical electrodes when monitoring ...