Simulation-based Bayesian inference for robotic grasping

Marlier, Norman, Brüls, Olivier, Louppe, Gilles

arXiv.org Artificial Intelligence 

Abstract-- General robotic grippers are challenging to control because of their rich nonsmooth contact dynamics and the many sources of uncertainties due to the environment or sensor noise. In this work, we demonstrate how to compute 6-DoF grasp poses using simulation-based Bayesian inference through the full stochastic forward simulation of the robot in its environment while robustly accounting for many of the uncertainties in the system. A Riemannian manifold optimization procedure preserving the nonlinearity of the rotation space is used to compute the maximum a posteriori grasp pose. Simulation and physical benchmarks show the promising high success rate of the approach. Industrial grasping works very well in highly structured environments with few uncertainties.

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