基于迁移学习的牙科x射线多分类深度神经网络优化

G. Divya Deepak, Subraya Krishna Bhat
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引用次数: 0

摘要

在本研究中,将牙科医生获得的牙x线分割图像分为理想无牙区/最小损害区(无需立即临床治疗)、部分/中度损害区(需要桥接或铸造局部义齿)和严重损害区(需要全口义齿修复)。总共使用了116个牙科x射线图像数据集,其中70%的图像数据集用于训练卷积神经网络(CNN), 30%用于测试和验证。三个预训练深度神经网络(dnn);使用Matlab 2022的深度网络设计模块实现了SqueezeNet, ResNet-50和efficientnet - 60)。每一个cnn都经过训练、测试和优化,以获得最佳的准确性和牙科图像的验证,这需要适当的临床治疗。效率网-b0的分类准确率最高,达到98%。这项新研究使DNN参数的实现能够自动识别和标记无牙区域,这将需要临床治疗。此外,使用混淆矩阵计算了最佳深度神经网络的性能指标、准确率、召回率、精度和F1分数。
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Optimization of deep neural networks for multiclassification of dental X-rays using transfer learning
In this work, the segmented dental X-ray images obtained by dentists have been classified into ideal/minimally compromised edentulous area (no clinical treatment needed immediately), partially/moderately compromised edentulous area (require bridges or cast partial denture) and substantially compromised edentulous area (require complete denture prosthesis). A total of 116 image dental X-ray dataset is used, of which 70% of the image dataset is used for training the convolutional neural network (CNN) while 30% is used sfor testing and validation. Three pretrained deep neural networks (DNNs; SqueezeNet, ResNet-50 and EfficientNet-b0) have been implemented using Deep Network Designer module of Matlab 2022. Each of these CNNs were trained, tested and optimised for the best possible accuracy and validation of dental images, which require an appropriate clinical treatment. The highest classification accuracy of 98% was obtained for EfficientNet-b0. This novel research enables the implementation of DNN parameters for automated identification and labelling of edentulous area, which would require clinical treatment. Also, the performance metrics, accuracy, recall, precision and F1 score have been calculated for the best DNN using confusion matrix.
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来源期刊
CiteScore
2.80
自引率
6.20%
发文量
102
期刊介绍: Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization is an international journal whose main goals are to promote solutions of excellence for both imaging and visualization of biomedical data, and establish links among researchers, clinicians, the medical technology sector and end-users. The journal provides a comprehensive forum for discussion of the current state-of-the-art in the scientific fields related to imaging and visualization, including, but not limited to: Applications of Imaging and Visualization Computational Bio- imaging and Visualization Computer Aided Diagnosis, Surgery, Therapy and Treatment Data Processing and Analysis Devices for Imaging and Visualization Grid and High Performance Computing for Imaging and Visualization Human Perception in Imaging and Visualization Image Processing and Analysis Image-based Geometric Modelling Imaging and Visualization in Biomechanics Imaging and Visualization in Biomedical Engineering Medical Clinics Medical Imaging and Visualization Multi-modal Imaging and Visualization Multiscale Imaging and Visualization Scientific Visualization Software Development for Imaging and Visualization Telemedicine Systems and Applications Virtual Reality Visual Data Mining and Knowledge Discovery.
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