Human-VDM: Learning Single-Image 3D Human Gaussian Splatting from Video Diffusion Models
This addresses the problem of inconsistent views in 3D human generation for computer vision applications, representing an incremental improvement over existing multi-view diffusion methods.
The paper tackles generating 3D humans from a single RGB image by proposing Human-VDM, which uses video diffusion models to produce temporally consistent views and Gaussian splatting for 3D reconstruction, achieving high-quality results that outperform state-of-the-art methods in quality and quantity.
Generating lifelike 3D humans from a single RGB image remains a challenging task in computer vision, as it requires accurate modeling of geometry, high-quality texture, and plausible unseen parts. Existing methods typically use multi-view diffusion models for 3D generation, but they often face inconsistent view issues, which hinder high-quality 3D human generation. To address this, we propose Human-VDM, a novel method for generating 3D human from a single RGB image using Video Diffusion Models. Human-VDM provides temporally consistent views for 3D human generation using Gaussian Splatting. It consists of three modules: a view-consistent human video diffusion module, a video augmentation module, and a Gaussian Splatting module. First, a single image is fed into a human video diffusion module to generate a coherent human video. Next, the video augmentation module applies super-resolution and video interpolation to enhance the textures and geometric smoothness of the generated video. Finally, the 3D Human Gaussian Splatting module learns lifelike humans under the guidance of these high-resolution and view-consistent images. Experiments demonstrate that Human-VDM achieves high-quality 3D human from a single image, outperforming state-of-the-art methods in both generation quality and quantity. Project page: https://human-vdm.github.io/Human-VDM/