DisControlFace: Disentangled Control for Personalized Facial Image Editing
In this work, we focus on exploring explicit fine-grained control of generative facial image editing, all while generating faithful and consistent personalized facial appearances. We identify the key challenge of this task as the exploration of disentangled conditional control in the generation process, and accordingly propose a novel diffusion-based framework, named DisControlFace, comprising two decoupled components. Specifically, we leverage an off-the-shelf diffusion reconstruction model as the backbone and freeze its pre-trained weights, which helps to reduce identity shift and recover editing-unrelated details of the input image. Furthermore, we construct a parallel control network that is compatible with the reconstruction backbone to generate spatial control conditions based on estimated explicit face parameters. Finally, we further reformulate the training pipeline into a masked-autoencoding form to effectively achieve disentangled training of our DisControlFace. Our DisControlNet can perform robust editing on any facial image through training on large-scale 2D in-the-wild portraits and also supports low-cost fine-tuning with few additional images to further learn diverse personalized priors of a specific person. Extensive experiments demonstrate that DisControlFace can generate realistic facial images corresponding to various face control conditions, while significantly improving the preservation of the personalized facial details.
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