Inferring the depth of transparent or mirror (ToM) surfaces represents a hard challenge for either sensors, algorithms, or deep networks. We propose a simple pipeline for learning to estimate depth properly for such surfaces with neural networks, without requiring any ground-truth annotation. We unveil how to obtain reliable pseudo labels by in-painting ToM objects in images and processing them with a monocular depth estimation model. These labels can be used to fine-tune existing monocular or stereo networks, to let them learn how to deal with ToM surfaces. Experimental results on the Booster dataset show the dramatic improvements enabled by our remarkably simple proposal.
@article{arxiv.2307.15052,
title = {Learning Depth Estimation for Transparent and Mirror Surfaces},
author = {Alex Costanzino and Pierluigi Zama Ramirez and Matteo Poggi and Fabio Tosi and Stefano Mattoccia and Luigi Di Stefano},
journal= {arXiv preprint arXiv:2307.15052},
year = {2023}
}
Comments
Accepted at ICCV 2023. Project Page: https://cvlab-unibo.github.io/Depth4ToM