A Flexible and Robust Large Scale Capacitive Tactile System for Robots

Abstract: Capacitive technology allows building sensors that are small, compact and have high sensitivity. For this reason it has been widely adopted in robotics. In a previous work we presented a compliant skin system based on capacitive technology consisting of triangular modules interconnected to form a system of sensors that can be deployed on non-flat surfaces. This solution has been successfully adopted to cover various humanoid robots. The main limitation of this and all the approaches based on capacitive technol… Show more

“…The major disadvantages of capacitive sensors are susceptibility to electro-magnetic noise, sensitivity to temperature, non-linear response (please refer to the plot with response of excited taxel in [68]), and hysteresis. Their advantages include a higher frequency response relatively to piezoresistive sensors.…”

Tactile sensing in dexterous robot hands — Review

“…The major disadvantages of capacitive sensors are susceptibility to electro-magnetic noise, sensitivity to temperature, non-linear response (please refer to the plot with response of excited taxel in [68]), and hysteresis. Their advantages include a higher frequency response relatively to piezoresistive sensors.…”

Tactile sensing in dexterous robot hands — Review

“…Sorted CNT solution was subsequently spincoated onto the patterned electrodes to form a random network Stretchable electronic devices are able to interface with irregular, soft or moving objects. [1][2][3] They have important applications in cutting-edge technological areas, such as sensor skins for robotics and prosthetics, [4][5][6][7][8] biomedical instruments, [ 9,10 ] and sensor systems for monitoring biological parameters. [11][12][13][14][15][16][17][18][19] As the basic active element of electronic circuits, transistors play an important role in addressing sensors and enabling signal readout and amplifi cation.…”

Mechanically Durable and Highly Stretchable Transistors Employing Carbon Nanotube Semiconductor and Electrodes

“…Wearables embedded with smart sensors exist [cf. Maiolino et al [35], Yogeswaran et al [53]] that serve as effective suits whose primary role, however, is to provide the robot with tactile information for its own safety and to provide a softer surface interactive interface for facilitating human safety. In relation to affective-based interactions, if the wearable materials are not conducive to such interactions, e.g.…”

Affective Touch in Human–Robot Interaction: Conveying Emotion to the Nao Robot