In this paper we present a garment prototype using strain sensors to recognize upper body postures. A novel thermoplastic elastomer strain sensor was used for measuring strain in the clothing. This sensor has a linear resistance response to strain, a small hysteresis and can be fully integrated into textile. A study was conducted with eight participants wearing the garment and performing a total of 27 upper body postures. A Naïve Bayes classification was applied to identify the different postures. Nearly a complete recognition rate of 97% was achieved when the classification was adapted to the individual participant. A classification rate of 84% was achieved for an all-user classification and 65% for an independent user. These results show ...
Wearable sensors for breathing rate (BR) monitoring are gaining increasing interest in sports applic...
In this paper a stain sensor to measure large strain (80%) in textiles is presented. It consists of ...
Abstract—A textile pressure sensor has been designed for mea-suring pressure distribution on the hum...
In this paper we present a garment prototype using strain sensors to recognize upper body postures. ...
Conductive elastomers are a novel strain sensing technology which can be unobtrusively embedded into...
Textile-based transducers are an innovative category of devices that use conductive fibres meshed wi...
Several smart sensing garments have been proposed for postural and movement rehabilitation. Existing...
Abstract Background The aim of this study was to evaluate the concept of a wearable device and, spec...
Abstract BACKGROUND: The aim of this study was to evaluate the concept of a wearable device and, spe...
Abstract—Continuous observation of the back enables an online feedback concerning malpositions or un...
A fundamental challenge limiting information quality obtained from smart sensing garments is the inf...
Back injuries are the most common type of work injuries in the U.S. today (Bereau of Labor Statistic...
This project focussed on the use of smart textiles for full body posture monitoring and exploring th...
Wearable sensors have the potential to enable continuous real-time health monitoring of people durin...
Wearable sensors for breathing rate (BR) monitoring are gaining increasing interest in sports applic...
In this paper a stain sensor to measure large strain (80%) in textiles is presented. It consists of ...
Abstract—A textile pressure sensor has been designed for mea-suring pressure distribution on the hum...
In this paper we present a garment prototype using strain sensors to recognize upper body postures. ...
Conductive elastomers are a novel strain sensing technology which can be unobtrusively embedded into...
Textile-based transducers are an innovative category of devices that use conductive fibres meshed wi...
Several smart sensing garments have been proposed for postural and movement rehabilitation. Existing...
Abstract Background The aim of this study was to evaluate the concept of a wearable device and, spec...
Abstract BACKGROUND: The aim of this study was to evaluate the concept of a wearable device and, spe...
Abstract—Continuous observation of the back enables an online feedback concerning malpositions or un...
A fundamental challenge limiting information quality obtained from smart sensing garments is the inf...
Back injuries are the most common type of work injuries in the U.S. today (Bereau of Labor Statistic...
This project focussed on the use of smart textiles for full body posture monitoring and exploring th...
Wearable sensors have the potential to enable continuous real-time health monitoring of people durin...
Wearable sensors for breathing rate (BR) monitoring are gaining increasing interest in sports applic...
In this paper a stain sensor to measure large strain (80%) in textiles is presented. It consists of ...
Abstract—A textile pressure sensor has been designed for mea-suring pressure distribution on the hum...