Sensors (Jul 2024)

Latent Space Representations for Marker-Less Realtime Hand–Eye Calibration

  • Juan Camilo Martínez-Franco,
  • Ariel Rojas-Álvarez,
  • Alejandra Tabares,
  • David Álvarez-Martínez,
  • César Augusto Marín-Moreno

DOI
https://doi.org/10.3390/s24144662
Journal volume & issue
Vol. 24, no. 14
p. 4662

Abstract

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Marker-less hand–eye calibration permits the acquisition of an accurate transformation between an optical sensor and a robot in unstructured environments. Single monocular cameras, despite their low cost and modest computation requirements, present difficulties for this purpose due to their incomplete correspondence of projected coordinates. In this work, we introduce a hand–eye calibration procedure based on the rotation representations inferred by an augmented autoencoder neural network. Learning-based models that attempt to directly regress the spatial transform of objects such as the links of robotic manipulators perform poorly in the orientation domain, but this can be overcome through the analysis of the latent space vectors constructed in the autoencoding process. This technique is computationally inexpensive and can be run in real time in markedly varied lighting and occlusion conditions. To evaluate the procedure, we use a color-depth camera and perform a registration step between the predicted and the captured point clouds to measure translation and orientation errors and compare the results to a baseline based on traditional checkerboard markers.

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