In-Hand 3D Object Scanning
from an RGB Sequence

1Reality Labs at Meta, 2LIGM, Ecole des Ponts, Univ Gustave Eiffel, CNRS, Marne-la-Vallee, France, 3Institute for Computer Graphics and Vision, Graz University of Technology, Graz, Austria

Input                  Output

Abstract

We propose a method for in-hand 3D scanning of an unknown object from a sequence of color images. We cast the problem as reconstructing the object surface from un-posed multi-view images and rely on a neural implicit surface representation that captures both the geometry and the appearance of the object. By contrast with most NeRF-based methods, we do not assume that the camera-object relative poses are known and instead simultaneously optimize both the object shape and the pose trajectory. As global optimization over all the shape and pose parameters is prone to fail without coarse-level initialization of the poses, we propose an incremental approach which starts by splitting the sequence into carefully selected overlapping segments within which the optimization is likely to succeed. We incrementally reconstruct the object shape and track the object poses independently within each segment, and later merge all the segments by aligning poses estimated at the overlapping frames. Finally, we perform a global optimization over all the aligned segments to achieve full reconstruction. We experimentally show that the proposed method is able to reconstruct the shape and color of both textured and challenging texture-less objects, outperforms classical methods that rely only on appearance features, and its performance is close to recent methods that assume known camera poses.

Input Output Shape Output Poses Download link
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses
Download Shape and Poses

BibTeX

@article{hampali2023inhand,
  author    = {Hampali, Shreyas and Hodan, Tomas and Tran, Luan and Ma, Lingni and Keskin, Cem and Lepetit, Vincent},
  title     = {In-Hand 3D Object Scanning from an RGB Sequence},
  journal   = {CVPR},
  year      = {2023},
}