Litcius/Paper detail

MyStyle

Yotam Nitzan, Kfir Aberman, Qiurui He, Orly Liba, Michal Yarom, Yossi Gandelsman, Inbar Mosseri, Yael Pritch, Daniel Cohen‐Or

2022ACM Transactions on Graphics64 citationsDOIOpen Access PDF

Abstract

We introduce MyStyle, a personalized deep generative prior trained with a few shots of an individual. MyStyle allows to reconstruct, enhance and edit images of a specific person, such that the output is faithful to the person's key facial characteristics. Given a small reference set of portrait images of a person (~ 100), we tune the weights of a pretrained StyleGAN face generator to form a local, low-dimensional, personalized manifold in the latent space. We show that this manifold constitutes a personalized region that spans latent codes associated with diverse portrait images of the individual. Moreover, we demonstrate that we obtain a personalized generative prior, and propose a unified approach to apply it to various ill-posed image enhancement problems, such as inpainting and super-resolution, as well as semantic editing. Using the personalized generative prior we obtain outputs that exhibit high-fidelity to the input images and are also faithful to the key facial characteristics of the individual in the reference set. We demonstrate our method with fair-use images of numerous widely recognizable individuals for whom we have the prior knowledge for a qualitative evaluation of the expected outcome. We evaluate our approach against few-shots baselines and show that our personalized prior, quantitatively and qualitatively, outperforms state-of-the-art alternatives.

Topics & Concepts

Computer scienceArtificial intelligenceGenerator (circuit theory)InpaintingKey (lock)Generative modelSet (abstract data type)Generative grammarFace (sociological concept)Image editingFidelityImage (mathematics)Semantics (computer science)Pattern recognition (psychology)Computer visionComputer securityTelecommunicationsProgramming languagePower (physics)Quantum mechanicsPhysicsSociologySocial scienceGenerative Adversarial Networks and Image SynthesisAdvanced Image Processing TechniquesCinema and Media Studies
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