Tomographic Artificial Skin for Robotic Application
Sabrina Affortunati, Bernhard G. Zagar
- Year
- 2022
- Citations
- 6
Abstract
As technology advances, robots are becoming more and more a part of our daily lives. While industrial robots have already been in use for a several years, an increasing number of robots are also employed in the private environment. Human-robot cooperation requires ways to detect interactions in order to prevent possible harms. This paper presents a novel artificial skin made of conductive rubber for robot end-effectors. Integrated electrodes enable proximity, touch and force detection by combining impedance and capacitance tomography techniques. The results of measurements carried out on a prototype are presented in order to show how the tomographic methods provide a local resolution of the detection of close objects and of the force measurement.
Keywords
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