面部分析仪3D:自动面部轮廓检测和牙合分类

2022 2nd International Mobile, Intelligent, and Ubiquitous Computing Conference (MIUCC) Pub Date : 2022-05-08 DOI:10.1109/MIUCC55081.2022.9781758

Abduallah Elmaraghy, Ganna Ayman, Mohamed Khaled, Sara Tarek, Maha Sayed, Mennat Allah Hassan, Yomna M. I. Hassan, Mostafa Hussin Kamel

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引用次数: 0

摘要

牙科病理学是一个广泛的研究领域，因为它经历了几个阶段的诊断和治疗的病人。本文旨在帮助正畸医师对牙合进行分类，并测量由牙合引起的不对称性。该系统以二维面部图像作为输入，并使用它来重建三维模型。由于3D模型在信息丢失方面的错误率更低，因此3D模型比2D图像更准确。然后，它使用深度学习模型来检测2D图像上的3D面部地标，以测量面部不对称。这种方法面临的挑战包括在重建过程中实现尽可能高的精度，以及在3D面部模型上检测3D地标。与摄影测量技术相比，该技术的重建精度可达90%。所提出的框架有望节省时间，并在分析和分类中达到89%的准确率。

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Face analyzer 3D: Automatic facial profile detection and occlusion classification for dental purposes

Dental pathology is a wide field of study as it passes through several stages of diagnosis and treatment for patients. This paper aims to assist orthodontists in classifying dental occlusion and measuring the asymmetry caused by it. The system takes a 2D facial image as input and uses it to reconstruct the 3D model. As 3D models have a lower error rate in information loss, they are more accurate than 2D images. Then, it uses a deep learning model to detect 3D facial landmarks on a 2D image to measure facial asymmetry. The challenges in this approach include achieving the highest possible accuracy in the reconstruction process and detecting 3D landmarks on the 3D facial model. The used technique in reconstruction reaches up to 90% accuracy compared to photogrammetry techniques. The proposed framework is expected to be time-efficient and to achieve up to 89% accuracy in the analysis and classification.

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来源期刊

2022 2nd International Mobile, Intelligent, and Ubiquitous Computing Conference (MIUCC)

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