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Main Authors: Yang, Xin, Lin, Jiantao, Xu, Yingjie, Li, Haodong, Chen, Yingcong
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.21050
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author Yang, Xin
Lin, Jiantao
Xu, Yingjie
Li, Haodong
Chen, Yingcong
author_facet Yang, Xin
Lin, Jiantao
Xu, Yingjie
Li, Haodong
Chen, Yingcong
contents Despite the availability of large-scale 3D datasets and advancements in 3D generative models, the complexity and uneven quality of 3D geometry and texture data continue to hinder the performance of 3D generation techniques. In most existing approaches, 3D geometry and texture are generated in separate stages using different models and non-unified representations, frequently leading to unsatisfactory coherence between geometry and texture. To address these challenges, we propose a novel framework for joint generation of 3D geometry and texture. Specifically, we focus in generate a versatile 2.5D representations that can be seamlessly transformed between 2D and 3D. Our approach begins by integrating multiview RGB, normal, and coordinate images into a unified representation, termed as 2.5D latents. Next, we adapt pre-trained 2D foundation models for high-fidelity 2.5D generation, utilizing both text and image conditions. Finally, we introduce a lightweight 2.5D-to-3D refiner-decoder framework that efficiently generates detailed 3D representations from 2.5D images. Extensive experiments demonstrate that our model not only excels in generating high-quality 3D objects with coherent structure and color from text and image inputs but also significantly outperforms existing methods in geometry-conditioned texture generation.
format Preprint
id arxiv_https___arxiv_org_abs_2505_21050
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Advancing high-fidelity 3D and Texture Generation with 2.5D latents
Yang, Xin
Lin, Jiantao
Xu, Yingjie
Li, Haodong
Chen, Yingcong
Computer Vision and Pattern Recognition
Despite the availability of large-scale 3D datasets and advancements in 3D generative models, the complexity and uneven quality of 3D geometry and texture data continue to hinder the performance of 3D generation techniques. In most existing approaches, 3D geometry and texture are generated in separate stages using different models and non-unified representations, frequently leading to unsatisfactory coherence between geometry and texture. To address these challenges, we propose a novel framework for joint generation of 3D geometry and texture. Specifically, we focus in generate a versatile 2.5D representations that can be seamlessly transformed between 2D and 3D. Our approach begins by integrating multiview RGB, normal, and coordinate images into a unified representation, termed as 2.5D latents. Next, we adapt pre-trained 2D foundation models for high-fidelity 2.5D generation, utilizing both text and image conditions. Finally, we introduce a lightweight 2.5D-to-3D refiner-decoder framework that efficiently generates detailed 3D representations from 2.5D images. Extensive experiments demonstrate that our model not only excels in generating high-quality 3D objects with coherent structure and color from text and image inputs but also significantly outperforms existing methods in geometry-conditioned texture generation.
title Advancing high-fidelity 3D and Texture Generation with 2.5D latents
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2505.21050