Add to ORKGAn open issue for electronic textiles (e-textiles) used for wearable computing is the choice of materials. This paper describes the desirable characteristics of piezoelectric materials for wearable e-textiles, including shape sensing, sound detection, and sound emission. The paper then describes an initial prototype of a glove for user input that employs piezoelectrics to sense the movement of the hands to illustrate the design issues involved in using piezoelectrics
Nowadays, much of user interface is based on touch and the touch sensors have been common for displa...
In this study, it is aimed at that once the user carry loads over his capacity, system gives sound s...
Among wearable e-textiles, conductive textile yarns are of particular interest because they can be u...
The development of an entirely polymer-based motion sensing glove with possible applications, for ex...
In electronic textiles, we apply production techniques from both textiles and electronic engineering...
The main purpose of this thesis was to investigate and characterize the use of piezoelectric yarn fo...
Our previous work has shown that elastic textiles covered with an epitaxial layer of conducting poly...
The textile industry has made significant advances in the fields of intelligent and multifunctional ...
Electronic textiles and functional fabrics are among the key constituents envisioned for wearable el...
This paper describes the production and characterization of novel geometries piezoelectric products ...
In the Piezoelectric behaviour refers that conversion of mechanical impact to electrical power, or e...
Many modern user interfaces are based on touch, and such sensors are widely used in displays, Intern...
A hybrid design combines sensitivity and flexibility to create an acoustic single-fibre sensor that ...
The present work is about the realization and the characterization of a novel data glove able to det...
Gesture control is an emerging technological goal in the field of human–machine interfaces (HMIs). O...
Nowadays, much of user interface is based on touch and the touch sensors have been common for displa...
In this study, it is aimed at that once the user carry loads over his capacity, system gives sound s...
Among wearable e-textiles, conductive textile yarns are of particular interest because they can be u...
The development of an entirely polymer-based motion sensing glove with possible applications, for ex...
In electronic textiles, we apply production techniques from both textiles and electronic engineering...
The main purpose of this thesis was to investigate and characterize the use of piezoelectric yarn fo...
Our previous work has shown that elastic textiles covered with an epitaxial layer of conducting poly...
The textile industry has made significant advances in the fields of intelligent and multifunctional ...
Electronic textiles and functional fabrics are among the key constituents envisioned for wearable el...
This paper describes the production and characterization of novel geometries piezoelectric products ...
In the Piezoelectric behaviour refers that conversion of mechanical impact to electrical power, or e...
Many modern user interfaces are based on touch, and such sensors are widely used in displays, Intern...
A hybrid design combines sensitivity and flexibility to create an acoustic single-fibre sensor that ...
The present work is about the realization and the characterization of a novel data glove able to det...
Gesture control is an emerging technological goal in the field of human–machine interfaces (HMIs). O...
Nowadays, much of user interface is based on touch and the touch sensors have been common for displa...
In this study, it is aimed at that once the user carry loads over his capacity, system gives sound s...
Among wearable e-textiles, conductive textile yarns are of particular interest because they can be u...
