Honeycomb Lung Segmentation Network Based on P2T with CNN Two-Branch Parallelism

Intelligent and Converged Networks Pub Date : 2024-12-01 DOI:10.23919/ICN.2024.0023

Zhichao Li;Gang Li;Ling Zhang;Guijuan Cheng;Shan Wu

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Abstract

Aiming at the problem that honeycomb lung lesions are difficult to accurately segment due to diverse morphology and complex distribution, a network with parallel two-branch structure is proposed. In the encoder, the Pyramid Pooling Transformer (P2T) backbone is used as the Transformer branch to obtain the global features of the lesions, the convolutional branch is used to extract the lesions' local feature information, and the feature fusion module is designed to effectively fuse the features in the dual branches; subsequently, in the decoder, the channel prior convolutional attention is used to enhance the localization ability of the model to the lesion region. To resolve the problem of model accuracy degradation caused by the class imbalance of the dataset, an adaptive weighted hybrid loss function is designed for model training. Finally, extensive experimental results show that the method in this paper performs well on the Honeycomb Lung Dataset, with Intersection over Union (IoU), mean Intersection over Union (mloU), Dice coefficient, and Precision (Pre) of 0.8750,0.9363,0.9298, and 0.9012, respectively, which are better than other methods. In addition, its IoU and Dice coefficient of 0.7941 and 0.8875 on the Covid dataset further prove its excellent performance.

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基于P2T和CNN两分支并行的蜂窝肺分割网络

针对蜂窝状肺病变形态多样、分布复杂，难以准确分割的问题，提出了一种平行双分支结构的网络。在编码器中，使用金字塔池变压器（P2T）主干作为变压器分支获取病灶的全局特征，使用卷积分支提取病灶的局部特征信息，设计特征融合模块有效融合双分支中的特征；随后，在解码器中，利用通道先验卷积注意增强模型对病变区域的定位能力。为解决数据集类不平衡导致的模型精度下降问题，设计了自适应加权混合损失函数进行模型训练。最后，大量的实验结果表明，本文方法在蜂窝肺数据集上取得了良好的效果，其Intersection over Union （IoU）、mean Intersection over Union （mloU）、Dice系数和Precision （Pre）分别为0.8750、0.9363、0.9298和0.9012，均优于其他方法。此外，它在Covid数据集上的IoU和Dice系数分别为0.7941和0.8875，进一步证明了它的优异性能。

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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Intelligent and Converged Networks

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