English

LayeringDiff: Layered Image Synthesis via Generation, then Disassembly with Generative Knowledge

Computer Vision and Pattern Recognition 2025-01-03 v1

Abstract

Layers have become indispensable tools for professional artists, allowing them to build a hierarchical structure that enables independent control over individual visual elements. In this paper, we propose LayeringDiff, a novel pipeline for the synthesis of layered images, which begins by generating a composite image using an off-the-shelf image generative model, followed by disassembling the image into its constituent foreground and background layers. By extracting layers from a composite image, rather than generating them from scratch, LayeringDiff bypasses the need for large-scale training to develop generative capabilities for individual layers. Furthermore, by utilizing a pretrained off-the-shelf generative model, our method can produce diverse contents and object scales in synthesized layers. For effective layer decomposition, we adapt a large-scale pretrained generative prior to estimate foreground and background layers. We also propose high-frequency alignment modules to refine the fine-details of the estimated layers. Our comprehensive experiments demonstrate that our approach effectively synthesizes layered images and supports various practical applications.

Keywords

Cite

@article{arxiv.2501.01197,
  title  = {LayeringDiff: Layered Image Synthesis via Generation, then Disassembly with Generative Knowledge},
  author = {Kyoungkook Kang and Gyujin Sim and Geonung Kim and Donguk Kim and Seungho Nam and Sunghyun Cho},
  journal= {arXiv preprint arXiv:2501.01197},
  year   = {2025}
}
R2 v1 2026-06-28T20:54:30.865Z