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CommonScenes: Generating Commonsense 3D Indoor Scenes with Scene Graph Diffusion

Authors :
Zhai, Guangyao
Örnek, Evin Pınar
Wu, Shun-Cheng
Di, Yan
Tombari, Federico
Navab, Nassir
Busam, Benjamin
Publication Year :
2023

Abstract

Controllable scene synthesis aims to create interactive environments for various industrial use cases. Scene graphs provide a highly suitable interface to facilitate these applications by abstracting the scene context in a compact manner. Existing methods, reliant on retrieval from extensive databases or pre-trained shape embeddings, often overlook scene-object and object-object relationships, leading to inconsistent results due to their limited generation capacity. To address this issue, we present CommonScenes, a fully generative model that converts scene graphs into corresponding controllable 3D scenes, which are semantically realistic and conform to commonsense. Our pipeline consists of two branches, one predicting the overall scene layout via a variational auto-encoder and the other generating compatible shapes via latent diffusion, capturing global scene-object and local inter-object relationships in the scene graph while preserving shape diversity. The generated scenes can be manipulated by editing the input scene graph and sampling the noise in the diffusion model. Due to lacking a scene graph dataset offering high-quality object-level meshes with relations, we also construct SG-FRONT, enriching the off-the-shelf indoor dataset 3D-FRONT with additional scene graph labels. Extensive experiments are conducted on SG-FRONT where CommonScenes shows clear advantages over other methods regarding generation consistency, quality, and diversity. Codes and the dataset will be released upon acceptance.<br />Comment: NeurIPS 2023 camera-ready

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2305.16283
Document Type :
Working Paper