1 research outputs found
DeProCams: Simultaneous Relighting, Compensation and Shape Reconstruction for Projector-Camera Systems
Image-based relighting, projector compensation and depth/normal
reconstruction are three important tasks of projector-camera systems (ProCams)
and spatial augmented reality (SAR). Although they share a similar pipeline of
finding projector-camera image mappings, in tradition, they are addressed
independently, sometimes with different prerequisites, devices and sampling
images. In practice, this may be cumbersome for SAR applications to address
them one-by-one. In this paper, we propose a novel end-to-end trainable model
named DeProCams to explicitly learn the photometric and geometric mappings of
ProCams, and once trained, DeProCams can be applied simultaneously to the three
tasks. DeProCams explicitly decomposes the projector-camera image mappings into
three subprocesses: shading attributes estimation, rough direct light
estimation and photorealistic neural rendering. A particular challenge
addressed by DeProCams is occlusion, for which we exploit epipolar constraint
and propose a novel differentiable projector direct light mask. Thus, it can be
learned end-to-end along with the other modules. Afterwards, to improve
convergence, we apply photometric and geometric constraints such that the
intermediate results are plausible. In our experiments, DeProCams shows clear
advantages over previous arts with promising quality and meanwhile being fully
differentiable. Moreover, by solving the three tasks in a unified model,
DeProCams waives the need for additional optical devices, radiometric
calibrations and structured light.Comment: Source code and supplementary material at:
https://github.com/BingyaoHuang/DeProCam