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Beyond Pick-and-Place: Tackling Robotic Stacking of Diverse Shapes

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arxiv 2110.06192 v2 pith:5IEJR7J5 submitted 2021-10-12 cs.RO cs.LG

Beyond Pick-and-Place: Tackling Robotic Stacking of Diverse Shapes

classification cs.RO cs.LG
keywords stackingbeyonddiverselargelearningobjectspick-and-placepolicies
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We study the problem of robotic stacking with objects of complex geometry. We propose a challenging and diverse set of such objects that was carefully designed to require strategies beyond a simple "pick-and-place" solution. Our method is a reinforcement learning (RL) approach combined with vision-based interactive policy distillation and simulation-to-reality transfer. Our learned policies can efficiently handle multiple object combinations in the real world and exhibit a large variety of stacking skills. In a large experimental study, we investigate what choices matter for learning such general vision-based agents in simulation, and what affects optimal transfer to the real robot. We then leverage data collected by such policies and improve upon them with offline RL. A video and a blog post of our work are provided as supplementary material.

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