1 research outputs found
Unpaired Depth Super-Resolution in the Wild
Depth maps captured with commodity sensors are often of low quality and
resolution; these maps need to be enhanced to be used in many applications.
State-of-the-art data-driven methods of depth map super-resolution rely on
registered pairs of low- and high-resolution depth maps of the same scenes.
Acquisition of real-world paired data requires specialized setups. Another
alternative, generating low-resolution maps from high-resolution maps by
subsampling, adding noise and other artificial degradation methods, does not
fully capture the characteristics of real-world low-resolution images. As a
consequence, supervised learning methods trained on such artificial paired data
may not perform well on real-world low-resolution inputs. We consider an
approach to depth super-resolution based on learning from unpaired data. While
many techniques for unpaired image-to-image translation have been proposed,
most fail to deliver effective hole-filling or reconstruct accurate surfaces
using depth maps. We propose an unpaired learning method for depth
super-resolution, which is based on a learnable degradation model, enhancement
component and surface normal estimates as features to produce more accurate
depth maps. We propose a benchmark for unpaired depth SR and demonstrate that
our method outperforms existing unpaired methods and performs on par with
paired