SADIR:用于三维图像重建的形状感知扩散模型。

Nivetha Jayakumar, Tonmoy Hossain, Miaomiao Zhang
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引用次数: 0

摘要

从数量有限的二维图像重建三维图像一直是计算机视觉和图像分析领域的一项长期挑战。虽然基于深度学习的方法在这一领域取得了令人瞩目的成绩,但现有的深度网络往往不能有效利用图像中物体的形状结构。因此,重建物体的拓扑结构可能无法得到很好的保留,从而导致不同部分之间出现不连续性、孔洞或不匹配连接等人工痕迹。为了解决这些问题,我们在本文中提出了一种基于扩散模型的形状感知网络,用于三维图像重建,并命名为 SADIR。与以往主要依靠图像强度的空间相关性进行三维重建的方法不同,我们的模型利用从训练数据中学到的形状先验来指导重建过程。为此,我们开发了一个联合学习网络,同时学习变形模型下的平均形状。然后,每个重建图像都被视为平均形状的变形变体。我们在脑部和心脏磁共振图像(MRI)上验证了我们的模型 SADIR。实验结果表明,我们的方法优于基线方法,重建误差更低,而且能更好地保留图像中物体的形状结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SADIR: Shape-Aware Diffusion Models for 3D Image Reconstruction.

3D image reconstruction from a limited number of 2D images has been a long-standing challenge in computer vision and image analysis. While deep learning-based approaches have achieved impressive performance in this area, existing deep networks often fail to effectively utilize the shape structures of objects presented in images. As a result, the topology of reconstructed objects may not be well preserved, leading to the presence of artifacts such as discontinuities, holes, or mismatched connections between different parts. In this paper, we propose a shape-aware network based on diffusion models for 3D image reconstruction, named SADIR, to address these issues. In contrast to previous methods that primarily rely on spatial correlations of image intensities for 3D reconstruction, our model leverages shape priors learned from the training data to guide the reconstruction process. To achieve this, we develop a joint learning network that simultaneously learns a mean shape under deformation models. Each reconstructed image is then considered as a deformed variant of the mean shape. We validate our model, SADIR, on both brain and cardiac magnetic resonance images (MRIs). Experimental results show that our method outperforms the baselines with lower reconstruction error and better preservation of the shape structure of objects within the images.

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