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Nonlinear dimensionality reduction for motion synthesis and control

Synthesising motion of human character animations or humanoid robots is vastly complicated by the large number of degrees of freedom in their kinematics. Control spaces become so large, that automated methods designed to adaptively generate movements become computationally infeasible or fail to find acceptable solutions. In this thesis we investigate how demonstrations of previously successful movements can be used to inform the production of new movements that are adapted to new situations. In particular, we evaluate the use of nonlinear dimensionality reduction techniques to find compact representations of demonstrations, and investigate how these can simplify the synthesis of new movements. Our focus lies on the Gaussian Process Latent Variable Model (GPLVM), because it has proven to capture the nonlinearities present in the kinematics of robots and humans. We present an in-depth analysis of the underlying theory which results in an alternative approach to initialise the GPLVM based on Multidimensional Scaling. We show that the new initialisation is better suited than PCA for nonlinear, synthetic data, but have to note that its advantage shrinks on motion data. Subsequently we show that the incorporation of additional structure constraints leads to low-dimensional representations which are sufficiently regular so that once learned dynamic movement primitives can be adapted to new situations without need for relearning. Finally, we demonstrate in a number of experiments where movements are generated for bimanual reaching, that, through the use of nonlinear dimensionality reduction, reinforcement learning can be scaled up to optimise humanoid movements.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:563329
Date January 2011
CreatorsBitzer, Sebastian
ContributorsVijayakumar, Sethu
PublisherUniversity of Edinburgh
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttp://hdl.handle.net/1842/4869

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