肝脏及肝肿瘤分割池化手术的再思考

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers in signal processing Pub Date : 2022-01-10 DOI:10.3389/frsip.2021.808050
Ju-hong Lei, Tao Lei, Weiqiang Zhao, Min-Qi Xue, Xiaogang Du, A. Nandi
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摘要

深度卷积神经网络(Deep convolutional neural network, DCNNs)由于其出色的特征学习能力,在医学图像分割中得到了广泛的应用。在这些DCNNs中,通常采用池化操作对图像进行下采样,这样可以逐渐降低图像分辨率,从而扩大卷积核的接受域。池化操作虽然具有上述优点,但在池化过程的下采样过程中不可避免地会造成信息丢失。本文提出了一种有效的加权池化操作来解决信息丢失问题。首先,我们建立一个具有可学习参数的池化窗口,然后在训练过程中更新这些参数。其次,利用加权池化方法改进全尺度跳跃连接,增强多尺度特征融合;我们在LiTS2017和CHAOS两个公共基准数据集上评估了加权池化。实验结果表明,所提出的加权池化操作有效地提高了网络性能,提高了肝脏和肝脏肿瘤分割的准确性。
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Rethinking Pooling Operation for Liver and Liver-Tumor Segmentations
Deep convolutional neural networks (DCNNs) have been widely used in medical image segmentation due to their excellent feature learning ability. In these DCNNs, the pooling operation is usually used for image down-sampling, which can gradually reduce the image resolution and thus expands the receptive field of convolution kernel. Although the pooling operation has the above advantages, it inevitably causes information loss during the down-sampling of the pooling process. This paper proposes an effective weighted pooling operation to address the problem of information loss. First, we set up a pooling window with learnable parameters, and then update these parameters during the training process. Secondly, we use weighted pooling to improve the full-scale skip connection and enhance the multi-scale feature fusion. We evaluated weighted pooling on two public benchmark datasets, the LiTS2017 and the CHAOS. The experimental results show that the proposed weighted pooling operation effectively improve network performance and improve the accuracy of liver and liver-tumor segmentation.
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