Robust in-hand manipulation of variously sized and shaped objects

• Published in: 2015 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) pp. 257 - 263
• Main Authors: Funabashi, Satoshi, Schmitz, Alexander, Sato, Takashi, Somlor, Sophon, Sugano, Shigeki
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.09.2015
• Subjects: IEEE Xplore; Portable document format
• DOI: 10.1109/IROS.2015.7353383

Moving objects within the hand is challenging, especially if the objects are of various shape and size. In this paper we use machine learning to learn in-hand manipulation of such various sized and shaped objects. The TWENDY-ONE hand is used, which has various properties that makes it well suited for in-hand manipulation: a high number of actuated joints, passive degrees of freedom and soft skin, six-axis force/torque (F/T) sensors in each fingertip, and distributed tactile sensors in the skin. A dataglove is used to gather training samples for teaching the required behavior. The object size information is extracted from the initial grasping posture. After training a neural network, the robot is able to manipulate objects of untrained sizes and shape. The results show the importance of size and tactile information. Compared to interpolation control, the adaptability for the initial posture gap could be greatly extended. Final results show that with deep learning the number of required training sets can be drastically reduced.