WarpGAN: Warping-Guided 3D GAN Inversion with Style-Based Novel View Inpainting
This addresses the challenge of realistic and consistent novel view generation from single images for applications like 3D reconstruction and virtual reality, representing an incremental improvement over existing methods.
The paper tackles the problem of poor quality in occluded regions during single-shot novel view synthesis with 3D GAN inversion by introducing a warping-and-inpainting strategy, resulting in a method that consistently outperforms state-of-the-art approaches in experiments.
3D GAN inversion projects a single image into the latent space of a pre-trained 3D GAN to achieve single-shot novel view synthesis, which requires visible regions with high fidelity and occluded regions with realism and multi-view consistency. However, existing methods focus on the reconstruction of visible regions, while the generation of occluded regions relies only on the generative prior of 3D GAN. As a result, the generated occluded regions often exhibit poor quality due to the information loss caused by the low bit-rate latent code. To address this, we introduce the warping-and-inpainting strategy to incorporate image inpainting into 3D GAN inversion and propose a novel 3D GAN inversion method, WarpGAN. Specifically, we first employ a 3D GAN inversion encoder to project the single-view image into a latent code that serves as the input to 3D GAN. Then, we perform warping to a novel view using the depth map generated by 3D GAN. Finally, we develop a novel SVINet, which leverages the symmetry prior and multi-view image correspondence w.r.t. the same latent code to perform inpainting of occluded regions in the warped image. Quantitative and qualitative experiments demonstrate that our method consistently outperforms several state-of-the-art methods.