English

Spatial-Separated Curve Rendering Network for Efficient and High-Resolution Image Harmonization

Computer Vision and Pattern Recognition 2021-12-01 v4

Abstract

Image harmonization aims to modify the color of the composited region with respect to the specific background. Previous works model this task as a pixel-wise image-to-image translation using UNet family structures. However, the model size and computational cost limit the ability of their models on edge devices and higher-resolution images. To this end, we propose a novel spatial-separated curve rendering network(S2^2CRNet) for efficient and high-resolution image harmonization for the first time. In S2^2CRNet, we firstly extract the spatial-separated embeddings from the thumbnails of the masked foreground and background individually. Then, we design a curve rendering module(CRM), which learns and combines the spatial-specific knowledge using linear layers to generate the parameters of the piece-wise curve mapping in the foreground region. Finally, we directly render the original high-resolution images using the learned color curve. Besides, we also make two extensions of the proposed framework via the Cascaded-CRM and Semantic-CRM for cascaded refinement and semantic guidance, respectively. Experiments show that the proposed method reduces more than 90% parameters compared with previous methods but still achieves the state-of-the-art performance on both synthesized iHarmony4 and real-world DIH test sets. Moreover, our method can work smoothly on higher resolution images(eg., 2048×20482048\times2048) in 0.1 seconds with much lower GPU computational resources than all existing methods. The code will be made available at \url{http://github.com/stefanLeong/S2CRNet}.

Keywords

Cite

@article{arxiv.2109.05750,
  title  = {Spatial-Separated Curve Rendering Network for Efficient and High-Resolution Image Harmonization},
  author = {Jingtang Liang and Xiaodong Cun and Chi-Man Pun and Jue Wang},
  journal= {arXiv preprint arXiv:2109.05750},
  year   = {2021}
}
R2 v1 2026-06-24T05:54:20.465Z