Abstract
Existing any-to-any relighting methods suffer from the task-aliasing effects and the loss of local details in the image generation process, such as shading and attached-shadow. In this paper, we present PNRNet, a novel neural architecture that decomposes the any-to-any relighting task into three simpler sub-tasks, i.e. lighting estimation, color temperature transfer, and lighting direction transfer, to avoid the task-aliasing effects. These sub-tasks are easy to learn and can be trained with direct supervisions independently. To better preserve local shading and attached-shadow details, we propose a parallel multi-scale network that incorporates multiple physical attributes to model local illuminations for lighting direction transfer. We also introduce a simple yet effective color temperature transfer network to learn a pixel-level non-linear function which allows color temperature adjustment beyond the predefined color temperatures and generalizes well to real images. Extensive experiments demonstrate that our proposed approach achieves better results quantitatively and qualitatively than prior works.
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