Related papers: PUSSM: Point Cloud Upsampling as Implicit Statistical Shape Model

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arXiv Detail & Related papers (2024-11-24T15:43:01Z)
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Statistical shape modeling (SSM) characterizes anatomical variations in a population of shapes generated from medical images. DeepSSM aims to provide a blueprint for deep learning-based image-to-shape models.
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arXiv Detail & Related papers (2021-09-11T05:24:40Z)
Discriminative and Generative Models for Anatomical Shape Analysison Point Clouds with Deep Neural Networks [3.7814216736076434]
We introduce deep neural networks for the analysis of anatomical shapes that learn a low-dimensional shape representation from the given task. Our framework is modular and consists of several computing blocks that perform fundamental shape processing tasks. We propose a discriminative model for disease classification and age regression, as well as a generative model for the accruate reconstruction of shapes.
arXiv Detail & Related papers (2020-10-02T07:37:40Z)
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arXiv Detail & Related papers (2020-09-07T03:51:35Z)
Modelling the Distribution of 3D Brain MRI using a 2D Slice VAE [66.63629641650572]
We propose a method to model 3D MR brain volumes distribution by combining a 2D slice VAE with a Gaussian model that captures the relationships between slices. We also introduce a novel evaluation method for generated volumes that quantifies how well their segmentations match those of true brain anatomy.
arXiv Detail & Related papers (2020-07-09T13:23:15Z)
Monocular Human Pose and Shape Reconstruction using Part Differentiable Rendering [53.16864661460889]
Recent works succeed in regression-based methods which estimate parametric models directly through a deep neural network supervised by 3D ground truth. In this paper, we introduce body segmentation as critical supervision. To improve the reconstruction with part segmentation, we propose a part-level differentiable part that enables part-based models to be supervised by part segmentation.
arXiv Detail & Related papers (2020-03-24T14:25:46Z)

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