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Autori principali: Yang, Xinquan, Ren, Jianfeng, Li, Xuguang, Lim, Kian Ming, Meng, He, Shen, Linlin, Deng, Yongqiang
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.01741
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author Yang, Xinquan
Ren, Jianfeng
Li, Xuguang
Lim, Kian Ming
Meng, He
Shen, Linlin
Deng, Yongqiang
author_facet Yang, Xinquan
Ren, Jianfeng
Li, Xuguang
Lim, Kian Ming
Meng, He
Shen, Linlin
Deng, Yongqiang
contents Cone Beam Computed Tomography (CBCT) is pivotal for 3D diagnostic imaging in dentistry. However, the development of robust AI models for volumetric analysis is often constrained by the scarcity of large, annotated datasets. Self-supervised learning (SSL), particularly Masked Image Modeling (MIM), offers a promising pathway to leverage unlabeled data. A limitation of standard MIM is its reliance on random masking, which fails to prioritize diagnostically critical regions in dental CBCT volumes, such as subtle pathological changes and intricate anatomical boundaries. To address this, we propose ATMask, a novel adaptive masking strategy. Instead of applying random masks or employing computationally intensive attention modules, ATMask computes an inter-slice texture variation map to identify regions with high structural or textural complexity. These high-variation areas are then selectively masked during pre-training, compelling the model to learn richer contextual representations essential for inferring complex 3D morphological transitions. Furthermore, we contribute the first large-scale CBCT dataset, curated from both public and private sources, comprising 6,314 scans, for the dental AI model pretraining. Extensive experiments on three downstream dental CBCT tasks demonstrate that our ATMask enables more data-efficient and powerful representation learning than standard random masking and other advanced SSL baselines. The dataset and code will be released.
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publishDate 2026
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spellingShingle Adaptive Texture-aware Masking for Self-Supervised Learning in 3D Dental CBCT Analysis
Yang, Xinquan
Ren, Jianfeng
Li, Xuguang
Lim, Kian Ming
Meng, He
Shen, Linlin
Deng, Yongqiang
Computer Vision and Pattern Recognition
Cone Beam Computed Tomography (CBCT) is pivotal for 3D diagnostic imaging in dentistry. However, the development of robust AI models for volumetric analysis is often constrained by the scarcity of large, annotated datasets. Self-supervised learning (SSL), particularly Masked Image Modeling (MIM), offers a promising pathway to leverage unlabeled data. A limitation of standard MIM is its reliance on random masking, which fails to prioritize diagnostically critical regions in dental CBCT volumes, such as subtle pathological changes and intricate anatomical boundaries. To address this, we propose ATMask, a novel adaptive masking strategy. Instead of applying random masks or employing computationally intensive attention modules, ATMask computes an inter-slice texture variation map to identify regions with high structural or textural complexity. These high-variation areas are then selectively masked during pre-training, compelling the model to learn richer contextual representations essential for inferring complex 3D morphological transitions. Furthermore, we contribute the first large-scale CBCT dataset, curated from both public and private sources, comprising 6,314 scans, for the dental AI model pretraining. Extensive experiments on three downstream dental CBCT tasks demonstrate that our ATMask enables more data-efficient and powerful representation learning than standard random masking and other advanced SSL baselines. The dataset and code will be released.
title Adaptive Texture-aware Masking for Self-Supervised Learning in 3D Dental CBCT Analysis
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2605.01741