Evaluating Morphological Computation in Muscle and DC-motor Driven Models of Human Hopping
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Publication:6267931
arXiv1512.00250MaRDI QIDQ6267931
Keyan Ghazi-Zahedi, Daniel F. B. Haeufle, Syn Schmitt, Nihat Ay, Guido Montufar
Publication date: 1 December 2015
Abstract: In the context of embodied artificial intelligence, morphological computation refers to processes which are conducted by the body (and environment) that otherwise would have to be performed by the brain. Exploiting environmental and morphological properties is an important feature of embodied systems. The main reason is that it allows to significantly reduce the controller complexity. An important aspect of morphological computation is that it cannot be assigned to an embodied system per se, but that it is, as we show, behavior- and state-dependent. In this work, we evaluate two different measures of morphological computation that can be applied in robotic systems and in computer simulations of biological movement. As an example, these measures were evaluated on muscle and DC-motor driven hopping models. We show that a state-dependent analysis of the hopping behaviors provides additional insights that cannot be gained from the averaged measures alone. This work includes algorithms and computer code for the measures.
Has companion code repository: https://github.com/kzahedi/entropy
Algorithmic information theory (Kolmogorov complexity, etc.) (68Q30) Biomechanics (92C10) Artificial intelligence for robotics (68T40)
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