Towards Grasping with Spiking Neural Networks for Anthropomorphic Robot Hands

Publikationstyp
Konferenz
Autor(en)
Tieck, J. Camilo Vasquez and Donat, Heiko and Kaiser, Jacques and Peric, Igor and Ulbrich, Stefan and Roennau, Arne and Zöllner, Marius and Dillmann, Rüdiger
Jahr
2017
Seiten
43--51
Verlag
Springer International Publishing
Adresse
Cham
ISBN
978-3-319-68600-4
Buchtitel
Artificial Neural Networks and Machine Learning -- ICANN 2017
Bearbeiter
Lintas, Alessandra and Rovetta, Stefano and Verschure, Paul F.M.J. and Villa, Alessandro E.P.
Abstract
Representation and execution of movement in biology is an active field of research relevant to neurorobotics. Humans can remember grasp motions and modify them during execution based on the shape and the intended interaction with objects. We present a hierarchical spiking neural network with a biologically inspired architecture for representing different grasp motions. We demonstrate the ability of our network to learn from human demonstration using synaptic plasticity on two different exemplary grasp types (pinch and cylinder). We evaluate the performance of the network in simulation and on a real anthropomorphic robotic hand. The network exposes the ability of learning finger coordination and synergies between joints that can be used for grasping.
DOI
10.1007/978-3-319-68600-4_6
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Eingetragen von
Arne Rönnau