通过扩散概率模型,利用点和网格表示的联合特征自动排列牙齿

IF 1.3 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Computer Aided Geometric Design Pub Date : 2024-04-22 DOI:10.1016/j.cagd.2024.102293
Changsong Lei , Mengfei Xia , Shaofeng Wang , Yaqian Liang , Ran Yi , Yu-Hui Wen , Yong-Jin Liu
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引用次数: 0

摘要

牙齿排列是正畸治疗中的一个关键步骤,牙齿排列整齐可以改善整体健康状况,提高面部美感,增强自信心。为了提高牙齿排列的效率,减少经验不足的从业者因设计不合理而造成的误差,人们提出了一些基于深度学习的牙齿排列方法。目前,大多数现有方法都采用 MLP 来模拟牙齿特征与变换矩阵之间的非线性关系,从而自动实现牙齿排列。然而,从临床实践中收集的数据集有限(据我们所知,这些数据集尚未公开),限制了现有方法的适用性,使其不足以解决各种错颌畸形问题。为了应对这一挑战,我们提出了一种基于扩散概率模型的通用牙齿排列神经网络。以从牙科模型中提取的特征为条件,扩散概率模型可以通过从随机变量逐渐去噪来学习从错合到正常咬合的牙齿变换矩阵分布,从而更有效地管理真实的正畸数据。为了充分利用有效的特征,我们设计了不同的编码网络,分别提取牙齿(局部)和颌骨(全局)特征,从而利用了网格和点云表示法。除了传统的 ADD、PA-ADD、CSA 和 MErot 指标外,我们还提出了一种基于牙弓曲线的新评价指标,用于判断生成的牙齿是否符合个人正常咬合。实验结果表明,我们提出的方法实现了最先进的牙齿排列结果和令人满意的牙弓间咬合关系。我们将公布代码和数据集。
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Automatic tooth arrangement with joint features of point and mesh representations via diffusion probabilistic models

Tooth arrangement is a crucial step in orthodontics treatment, in which aligning teeth could improve overall well-being, enhance facial aesthetics, and boost self-confidence. To improve the efficiency of tooth arrangement and minimize errors associated with unreasonable designs by inexperienced practitioners, some deep learning-based tooth arrangement methods have been proposed. Currently, most existing approaches employ MLPs to model the nonlinear relationship between tooth features and transformation matrices to achieve tooth arrangement automatically. However, the limited datasets (which to our knowledge, have not been made public) collected from clinical practice constrain the applicability of existing methods, making them inadequate for addressing diverse malocclusion issues. To address this challenge, we propose a general tooth arrangement neural network based on the diffusion probabilistic model. Conditioned on the features extracted from the dental model, the diffusion probabilistic model can learn the distribution of teeth transformation matrices from malocclusion to normal occlusion by gradually denoising from a random variable, thus more adeptly managing real orthodontic data. To take full advantage of effective features, we exploit both mesh and point cloud representations by designing different encoding networks to extract the tooth (local) and jaw (global) features, respectively. In addition to traditional metrics ADD, PA-ADD, CSA, and MErot, we propose a new evaluation metric based on dental arch curves to judge whether the generated teeth meet the individual normal occlusion. Experimental results demonstrate that our proposed method achieves state-of-the-art tooth alignment results and satisfactory occlusal relationships between dental arches. We will publish the code and dataset.

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来源期刊
Computer Aided Geometric Design
Computer Aided Geometric Design 工程技术-计算机:软件工程
CiteScore
3.50
自引率
13.30%
发文量
57
审稿时长
60 days
期刊介绍: The journal Computer Aided Geometric Design is for researchers, scholars, and software developers dealing with mathematical and computational methods for the description of geometric objects as they arise in areas ranging from CAD/CAM to robotics and scientific visualization. The journal publishes original research papers, survey papers and with quick editorial decisions short communications of at most 3 pages. The primary objects of interest are curves, surfaces, and volumes such as splines (NURBS), meshes, subdivision surfaces as well as algorithms to generate, analyze, and manipulate them. This journal will report on new developments in CAGD and its applications, including but not restricted to the following: -Mathematical and Geometric Foundations- Curve, Surface, and Volume generation- CAGD applications in Numerical Analysis, Computational Geometry, Computer Graphics, or Computer Vision- Industrial, medical, and scientific applications. The aim is to collect and disseminate information on computer aided design in one journal. To provide the user community with methods and algorithms for representing curves and surfaces. To illustrate computer aided geometric design by means of interesting applications. To combine curve and surface methods with computer graphics. To explain scientific phenomena by means of computer graphics. To concentrate on the interaction between theory and application. To expose unsolved problems of the practice. To develop new methods in computer aided geometry.
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