This thesis present the fabrication of 2 types of soft wearable electrical devices, utilizing the 3D printing technique. The devices are capable to detect human heart pulse waves and sound waves for health evaluation and speech recognition
An open issue for electronic textiles (e-textiles) used for wearable computing is the choice of mat...
Continuous monitoring of physiological biomarkers is an essential part of timely and accurate diagno...
The monitoring of vital signs is used to determine human health status. Healthcare monitoring device...
Physiological signals contain a wealth of personal health information which needs continuous monitor...
3D printing has attracted a lot of attention in recent years. Over the past three decades, various 3...
3D printing of soft EMG sensing structures enables the creation of personalized sensing structures t...
Piezoelectric materials show great promise for low-power wearable and implantable sensing, but their...
Although additive manufacturing technologies, also known as 3D printing, were first introduced in th...
The sense of touch, also known as tactile recognition, is crucial for modern robotics to explore and...
3D printing has gained popularity in recency from the benefits of reducing material waste and its re...
This paper describes the development and characterization of soft and flexible 3D-printed sEMG elect...
Wearable medical sensors that can monitor biosignals have the potential to transform healthcare - th...
Ultrathin sensing devices utilizing piezoelectric materials have emerged as potential candidates to ...
Abstract Thin-film microfabrication-based bio-integrated sensors are widely used for ...
Flexible electronics based on piezoelectric/triboelectric devices is an attractive technology for hu...
An open issue for electronic textiles (e-textiles) used for wearable computing is the choice of mat...
Continuous monitoring of physiological biomarkers is an essential part of timely and accurate diagno...
The monitoring of vital signs is used to determine human health status. Healthcare monitoring device...
Physiological signals contain a wealth of personal health information which needs continuous monitor...
3D printing has attracted a lot of attention in recent years. Over the past three decades, various 3...
3D printing of soft EMG sensing structures enables the creation of personalized sensing structures t...
Piezoelectric materials show great promise for low-power wearable and implantable sensing, but their...
Although additive manufacturing technologies, also known as 3D printing, were first introduced in th...
The sense of touch, also known as tactile recognition, is crucial for modern robotics to explore and...
3D printing has gained popularity in recency from the benefits of reducing material waste and its re...
This paper describes the development and characterization of soft and flexible 3D-printed sEMG elect...
Wearable medical sensors that can monitor biosignals have the potential to transform healthcare - th...
Ultrathin sensing devices utilizing piezoelectric materials have emerged as potential candidates to ...
Abstract Thin-film microfabrication-based bio-integrated sensors are widely used for ...
Flexible electronics based on piezoelectric/triboelectric devices is an attractive technology for hu...
An open issue for electronic textiles (e-textiles) used for wearable computing is the choice of mat...
Continuous monitoring of physiological biomarkers is an essential part of timely and accurate diagno...
The monitoring of vital signs is used to determine human health status. Healthcare monitoring device...
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