DiffInDScene: Diffusion-based High-Quality 3D Indoor Scene Generation

Xiaoliang Ju, Zhaoyang Huang, Yijin Li, Guofeng Zhang, Yu Qiao, Hongsheng Li; Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2024, pp. 4526-4535

We present DiffInDScene a novel framework for tackling the problem of high-quality 3D indoor scene generation which is challenging due to the complexity and diversity of the indoor scene geometry. Although diffusion-based generative models have previously demonstrated impressive performance in image generation and object-level 3D generation they have not yet been applied to room-level 3D generation due to their computationally intensive costs. In DiffInDScene we propose a cascaded 3D diffusion pipeline that is efficient and possesses strong generative performance for Truncated Signed Distance Function (TSDF). The whole pipeline is designed to run on a sparse occupancy space in a coarse-to-fine fashion. Inspired by KinectFusion's incremental alignment and fusion of local TSDF volumes we propose a diffusion-based SDF fusion approach that iteratively diffuses and fuses local TSDF volumes facilitating the generation of an entire room environment. The generated results demonstrate that our work is capable to achieve high-quality room generation directly in three-dimensional space starting from scratch. In addition to the scene generation the final part of DiffInDScene can be used as a post-processing module to refine the 3D reconstruction results from multi-view stereo. According to the user study the mesh quality generated by our DiffInDScene can even outperform the ground truth mesh provided by ScanNet.