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Main Authors: Liu, Qingming, Liu, Zhen, Zhang, Dinghuai, Jia, Kui
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.15684
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author Liu, Qingming
Liu, Zhen
Zhang, Dinghuai
Jia, Kui
author_facet Liu, Qingming
Liu, Zhen
Zhang, Dinghuai
Jia, Kui
contents Generating high-quality and photorealistic 3D assets remains a longstanding challenge in 3D vision and computer graphics. Although state-of-the-art generative models, such as diffusion models, have made significant progress in 3D generation, they often fall short of human-designed content due to limited ability to follow instructions, align with human preferences, or produce realistic textures, geometries, and physical attributes. In this paper, we introduce Nabla-R2D3, a highly effective and sample-efficient reinforcement learning alignment framework for 3D-native diffusion models using 2D rewards. Built upon the recently proposed Nabla-GFlowNet method, which matches the score function to reward gradients in a principled manner for reward finetuning, our Nabla-R2D3 enables effective adaptation of 3D diffusion models using only 2D reward signals. Extensive experiments show that, unlike vanilla finetuning baselines which either struggle to converge or suffer from reward hacking, Nabla-R2D3 consistently achieves higher rewards and reduced prior forgetting within a few finetuning steps.
format Preprint
id arxiv_https___arxiv_org_abs_2506_15684
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nabla-R2D3: Effective and Efficient 3D Diffusion Alignment with 2D Rewards
Liu, Qingming
Liu, Zhen
Zhang, Dinghuai
Jia, Kui
Graphics
Computer Vision and Pattern Recognition
Machine Learning
Generating high-quality and photorealistic 3D assets remains a longstanding challenge in 3D vision and computer graphics. Although state-of-the-art generative models, such as diffusion models, have made significant progress in 3D generation, they often fall short of human-designed content due to limited ability to follow instructions, align with human preferences, or produce realistic textures, geometries, and physical attributes. In this paper, we introduce Nabla-R2D3, a highly effective and sample-efficient reinforcement learning alignment framework for 3D-native diffusion models using 2D rewards. Built upon the recently proposed Nabla-GFlowNet method, which matches the score function to reward gradients in a principled manner for reward finetuning, our Nabla-R2D3 enables effective adaptation of 3D diffusion models using only 2D reward signals. Extensive experiments show that, unlike vanilla finetuning baselines which either struggle to converge or suffer from reward hacking, Nabla-R2D3 consistently achieves higher rewards and reduced prior forgetting within a few finetuning steps.
title Nabla-R2D3: Effective and Efficient 3D Diffusion Alignment with 2D Rewards
topic Graphics
Computer Vision and Pattern Recognition
Machine Learning
url https://arxiv.org/abs/2506.15684