From pixels to percepts: Highly robust edge perception and contour following using deep learning and an optical biomimetic tactile sensor

December 07, 2018 Β· Declared Dead Β· πŸ› IEEE Robotics and Automation Letters

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Authors Nathan F. Lepora, Alex Church, Conrad De Kerckhove, Raia Hadsell, John Lloyd arXiv ID 1812.02941 Category cs.RO: Robotics Citations 105 Venue IEEE Robotics and Automation Letters Last Checked 4 months ago
Abstract
Deep learning has the potential to have the impact on robot touch that it has had on robot vision. Optical tactile sensors act as a bridge between the subjects by allowing techniques from vision to be applied to touch. In this paper, we apply deep learning to an optical biomimetic tactile sensor, the TacTip, which images an array of papillae (pins) inside its sensing surface analogous to structures within human skin. Our main result is that the application of a deep CNN can give reliable edge perception and thus a robust policy for planning contact points to move around object contours. Robustness is demonstrated over several irregular and compliant objects with both tapping and continuous sliding, using a model trained only by tapping onto a disk. These results relied on using techniques to encourage generalization to tasks beyond which the model was trained. We expect this is a generic problem in practical applications of tactile sensing that deep learning will solve. A video demonstrating the approach can be found at https://www.youtube.com/watch?v=QHrGsG9AHts
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