用致密网检测肱骨x线片异常

Saksham Madan, Sudhansh Kesharwani, K. Akhil, Balaji S, B. K. P., R. M.
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引用次数: 0

摘要

通过阅读肌肉骨骼x光片来治疗受伤和骨折需要大量的专业知识。通常,经验不足的医生一开始检查x光片,很有可能被误诊。为了避免误诊肱骨异常或损伤,可以应用深度学习和机器学习算法。尽管复杂的深度学习模型在某些计算机视觉应用中已经超过了人类的能力,但由于缺乏良好的模型适用性和体面的标记数据,以及其他因素,阻碍了医学领域的快速发展。本文试图利用模型理解和可视化方法,分析在MURA数据集上的深度卷积神经网络特征去除过程,用于异常识别。首先,在选定的肱骨x线照片数据集上,使用某些图像预处理技术来消除x线照片中图像大小的变化。接下来的步骤是使用DenseNet-169架构来识别异常或正常的大数据。根据实施的结果,建议的方法是一种可靠的骨疾病分类技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abnormality Detection in Humerus Bone Radiographs Using DenseNet
Treating of injuries and broken bones through reading musculoskeletal radiographs requires a great deal of expertise. It is common that less experienced doctors initially check the radiographs and have a high chance of getting it misdiagnosed. To avoid such misdiagnosis of abnormalities or injury in humerus bone, Deep Learning and Machine Learning algorithms can be applied. Although sophisticated deep learning models have surpassed human capacity under certain computer vision applications, rapid development in the field of medicine has been hampered by a lack of good model applicability and decent marked data, along with other things. This paper seeks to use the model comprehension and visualization methodology to analyze the deep convolution neural network feature removal procedure on the MURA dataset for the identification of anomalies. First, on the selected dataset of humerus radiographs, certain image pre-processing techniques are used to remove variations in size of the image from the radiographs. The following step was to identify the large data as abnormal or normal using the DenseNet-169 architecture. The suggested approach is a reliable technique for classifying bone disorders, according to the findings of the implementation.
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