This work describes a power-efficient bio-potential acquisition device for long-term healthcare applications that is implemented using novel microelectromechanical dry electrodes (MDE) and a low power bio-potential processing chip. Using micromachining technology, an attempt is also made to enhance the sensing reliability and stability by fabricating a diamond-shaped MDE (DS-MDE) that has a satisfactory self-stability capability and superior electric conductivity when attached onto skin without any extra skin tissue injury technology. To acquire differential bio-potentials such as ECG signals, the proposed processing chip fabricated in a standard CMOS process has a high common mode rejection ratio (C.M.R.R.) differential amplifier and a 12-...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Electronic sensor systems, most often designed in CMOS technology, are key components of biomedical ...
Thesis (Ph.D.)--University of Washington, 2017-03This document presents various techniques and syste...
This work describes a bio-potential acquisition system for portable ubiquitous healthcare applicatio...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
As wireless bio-medical long term monitoring moves towards personal monitoring it demands very high ...
A 2.88nJ/Conversion low energy biopotential acquisition system is designed for portable healthcare d...
This paper presents a digital active electrode (DAE) system for multi-parameter biopotential signal ...
As wireless bio-medical long term monitoring moves towards personal monitoring it demands very high ...
Physical indicators are directly related with health and fitness of human body and translate into bi...
This paper presents a low power reconfigurable IC for wearable health devices that perform bio-imped...
For the advent of pervasive bio-potential monitoring, it will be necessary to utilize a combination ...
An aging population has lead to increased demand for health-care and an interest in moving health ca...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Electronic sensor systems, most often designed in CMOS technology, are key components of biomedical ...
Thesis (Ph.D.)--University of Washington, 2017-03This document presents various techniques and syste...
This work describes a bio-potential acquisition system for portable ubiquitous healthcare applicatio...
Electrophysiological signals from biological sources have been measured and used in modern medicine ...
As wireless bio-medical long term monitoring moves towards personal monitoring it demands very high ...
A 2.88nJ/Conversion low energy biopotential acquisition system is designed for portable healthcare d...
This paper presents a digital active electrode (DAE) system for multi-parameter biopotential signal ...
As wireless bio-medical long term monitoring moves towards personal monitoring it demands very high ...
Physical indicators are directly related with health and fitness of human body and translate into bi...
This paper presents a low power reconfigurable IC for wearable health devices that perform bio-imped...
For the advent of pervasive bio-potential monitoring, it will be necessary to utilize a combination ...
An aging population has lead to increased demand for health-care and an interest in moving health ca...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
Wearable devices for monitoring vital signs such as heart-rate, respiratory rate and blood pressure ...
Electronic sensor systems, most often designed in CMOS technology, are key components of biomedical ...
Thesis (Ph.D.)--University of Washington, 2017-03This document presents various techniques and syste...