Convolutional architectures with LSTM and TCN to embolism classification: exploring dependency between data

Anais do XIX Encontro Nacional de Inteligência Artificial e Computacional (ENIAC 2022) Pub Date : 2022-11-28 DOI:10.5753/eniac.2022.227585

Luiz G. K. Zanini, A. P. S. Silva, Felipe V. de Almeida, Fátima L. S. N. Marques, Anna H. R. Costa

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Abstract

Pulmonary Embolism is an affection caused by obstruction of the pulmonary artery or one of its branches. This condition imposes a high mortality incidence, in the United States approximately 100.000 deaths per year. Computed Tomography Pulmonary Angiography is a radiologic modality and an essential technology for diagnosing this disease, providing a series of axial images. We trained two Convolutional Neural Networks (Efficient Net B0 and Resnet 3D 18) in the RSNA-STR Computed Tomography Pulmonary Angiography Dataset to identify this affection. After training these Convolutional Neural Networks, we added a new layer to the architecture by exploring the dependency between the images along the exam using Long Short-Term Memory or Temporal Convolutional Networks. With the models trained and tested, we compared these different approaches using different metrics. As a result, the Temporal Convolutional Network approach with Resnet 3D 18 improved significantly compared to the results found in the other methods. The main contribution of this work was to observe how different combinations of architectures can help classify Computed Tomography Pulmonary Angiography.

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使用LSTM和TCN的卷积架构进行栓塞分类:探索数据之间的依赖关系

肺栓塞是由肺动脉或其分支阻塞引起的一种疾病。这种疾病的死亡率很高，在美国每年约有10万人死亡。计算机断层肺血管造影是一种放射学方式，也是诊断该病的基本技术，提供一系列轴向图像。我们在RSNA-STR计算机断层肺血管造影数据集中训练了两个卷积神经网络(Efficient Net B0和Resnet 3D 18)来识别这种影响。在训练这些卷积神经网络之后，我们通过使用长短期记忆或时间卷积网络探索考试过程中图像之间的依赖关系，在体系结构中添加了一个新的层。随着模型的训练和测试，我们使用不同的度量来比较这些不同的方法。因此，与其他方法相比，使用Resnet 3D 18的时间卷积网络方法显着改善了结果。这项工作的主要贡献是观察不同的结构组合如何帮助计算机断层肺血管造影分类。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Anais do XIX Encontro Nacional de Inteligência Artificial e Computacional (ENIAC 2022)

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