Add to ORKGThis thesis introduces a highly sensitive single-axis printed accelerometer based on a flexible paper substrate. The accelerometer is fabricated by cost-effective silver nano ink printing technologies, and consists of a suspended parallel-plate sensing capacitor. By designing the suspension bridge and proof mass structures, the sensitivity to vertical accelerations is optimized based on simulation results. The optimized design with two long ellipse-shaped bridges exhibits a capacitive sensitivity of 20 fF/g at z-axis acceleration of 1-10 g. A wearable sensing system is proposed which composes of the light-weight flexible accelerometer integrated with a readout circuit. The bandage-type accelerometer system can be conformally attached to var...
The paper shows the development of a micro machined sensor for implantation and monitoring the blood...
In this thesis several advances are made to the emerging field of 3D printed mechanical sensors. Tec...
In the last few years, the manufacturing of microelectromechanical systems (MEMS) by means of innova...
Flexible pressure sensors usually exhibit high sensitivity, excellent resolution, and can be mass-pr...
Small triaxial accelerometers are needed in the medical field for the monitoring of mobility. For th...
In this paper, a low-cost printed pressure sensing platform is presented. The sensing platform consi...
This paper presents an in-plane sandwich nano-g microelectromechanical systems (MEMS) accelerometer....
AbstractThis paper reports the screen printing of free-standing cantilever beams on to fabric, for u...
A highly symmetrical cubic easy-to-assemble capacitive triaxial accelerometer for biomedical applica...
MEMS are one of the fastest developing branch in microelectronics. Many integrated sensors are widel...
In this paper, the innovative fabrication process for electro-mechanical sensors, born from the smar...
A highly symmetrical cubic capacitive triaxial accelerometer for biomedical applications has been de...
The article presents design and realization results of capacitive sensors realized on flexible subst...
Physiological signals contain a wealth of personal health information which needs continuous monitor...
A highly symmetrical cubic capacitive triaxial accelerometer for biomedical applications has been de...
The paper shows the development of a micro machined sensor for implantation and monitoring the blood...
In this thesis several advances are made to the emerging field of 3D printed mechanical sensors. Tec...
In the last few years, the manufacturing of microelectromechanical systems (MEMS) by means of innova...
Flexible pressure sensors usually exhibit high sensitivity, excellent resolution, and can be mass-pr...
Small triaxial accelerometers are needed in the medical field for the monitoring of mobility. For th...
In this paper, a low-cost printed pressure sensing platform is presented. The sensing platform consi...
This paper presents an in-plane sandwich nano-g microelectromechanical systems (MEMS) accelerometer....
AbstractThis paper reports the screen printing of free-standing cantilever beams on to fabric, for u...
A highly symmetrical cubic easy-to-assemble capacitive triaxial accelerometer for biomedical applica...
MEMS are one of the fastest developing branch in microelectronics. Many integrated sensors are widel...
In this paper, the innovative fabrication process for electro-mechanical sensors, born from the smar...
A highly symmetrical cubic capacitive triaxial accelerometer for biomedical applications has been de...
The article presents design and realization results of capacitive sensors realized on flexible subst...
Physiological signals contain a wealth of personal health information which needs continuous monitor...
A highly symmetrical cubic capacitive triaxial accelerometer for biomedical applications has been de...
The paper shows the development of a micro machined sensor for implantation and monitoring the blood...
In this thesis several advances are made to the emerging field of 3D printed mechanical sensors. Tec...
In the last few years, the manufacturing of microelectromechanical systems (MEMS) by means of innova...