Add to ORKGThis paper examines the behavior of thinned and thereby flexible integrated silicon pressure sensors embedded in an array for tactile sensing in robotics and prosthetics. The aim of this sensor array is the detection of tactile sensations with high resolution. As a further requirement it should be possible to mount the sensor array onto an irregular surface, e.g. a prosthetic or robotic hand. For this the sensor array needs to be flexible which has an influence on the silicon components integrated in the tactile sensor. In this paper the effects of flexibilization and bending on the pressure sensor signals are studied
Array tactile sensors have special importance for human-machine interaction (HMI) and electronic pal...
Sensors are devices that convert a physical stimulus into an electrical signal. Mechanical stimuli s...
This paper presents our work on the development of a biomimetic tactile sensor and its integration w...
This paper introduces a study on flexible and stretchable sensor arrays as an add-on for tactile sen...
Tactile sensors, which achieve the resolution of the human skin and which are able to measure other ...
The development of advanced, human like tactile sensing capabilities is one of the key challenges fo...
Flexible and stretchable tactile sensors can fit complex surfaces nicely, and can be applied to robo...
Prostheses that provide feedback to the patient are under active research because such feedback is i...
The development of pressure sensors of high sensitivity and stable robustness over a broad range is ...
This paper presents a high-performance flexible tactile sensor based on inorganic silicon flexible e...
Flexible tactile sensors capable of detecting the magnitude and direction of the applied force toget...
A capacitive silicon tactile imaging system has been investigated for robotic and biomedical applica...
Biomimetic flexible tactile sensors endow prosthetics with the ability to manipulate objects, simila...
Flexible tactile sensors capable of detecting the magnitude and direction of the applied force toget...
Enabling the robotic ability to sense tactile interactions is a complex and interdisciplinary challe...
Array tactile sensors have special importance for human-machine interaction (HMI) and electronic pal...
Sensors are devices that convert a physical stimulus into an electrical signal. Mechanical stimuli s...
This paper presents our work on the development of a biomimetic tactile sensor and its integration w...
This paper introduces a study on flexible and stretchable sensor arrays as an add-on for tactile sen...
Tactile sensors, which achieve the resolution of the human skin and which are able to measure other ...
The development of advanced, human like tactile sensing capabilities is one of the key challenges fo...
Flexible and stretchable tactile sensors can fit complex surfaces nicely, and can be applied to robo...
Prostheses that provide feedback to the patient are under active research because such feedback is i...
The development of pressure sensors of high sensitivity and stable robustness over a broad range is ...
This paper presents a high-performance flexible tactile sensor based on inorganic silicon flexible e...
Flexible tactile sensors capable of detecting the magnitude and direction of the applied force toget...
A capacitive silicon tactile imaging system has been investigated for robotic and biomedical applica...
Biomimetic flexible tactile sensors endow prosthetics with the ability to manipulate objects, simila...
Flexible tactile sensors capable of detecting the magnitude and direction of the applied force toget...
Enabling the robotic ability to sense tactile interactions is a complex and interdisciplinary challe...
Array tactile sensors have special importance for human-machine interaction (HMI) and electronic pal...
Sensors are devices that convert a physical stimulus into an electrical signal. Mechanical stimuli s...
This paper presents our work on the development of a biomimetic tactile sensor and its integration w...