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PatchGraph: In-hand tactile tracking with learned surface normals

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arxiv 2111.07524 v2 pith:J5K3S4RK submitted 2021-11-15 cs.RO

PatchGraph: In-hand tactile tracking with learned surface normals

classification cs.RO
keywords objectsurfacetactiletrackinglocalimagenormalsobjects
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We address the problem of tracking 3D object poses from touch during in-hand manipulations. Specifically, we look at tracking small objects using vision-based tactile sensors that provide high-dimensional tactile image measurements at the point of contact. While prior work has relied on a-priori information about the object being localized, we remove this requirement. Our key insight is that an object is composed of several local surface patches, each informative enough to achieve reliable object tracking. Moreover, we can recover the geometry of this local patch online by extracting local surface normal information embedded in each tactile image. We propose a novel two-stage approach. First, we learn a mapping from tactile images to surface normals using an image translation network. Second, we use these surface normals within a factor graph to both reconstruct a local patch map and use it to infer 3D object poses. We demonstrate reliable object tracking for over $100$ contact sequences across unique shapes with four objects in simulation and two objects in the real-world. Supplementary video: https://youtu.be/FHks--haOGY

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