基于深度CNN的神经胶质瘤分割

Wadhah Ayadi, W. Elhamzi, M. Atri
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引用次数: 0

摘要

脑肿瘤的分割对放射科医生来说是一项艰巨的工作,因为大脑是最复杂的器官。在存在的几种脑肿瘤中,胶质瘤是最具侵袭性和最常见的。他们的一生都很短暂,尤其是在他们的最高年级。它通常是最常见的肿瘤,有各种形状、大小和亮度。它可以出现在大脑的任何地方。这些原因使得脑肿瘤的自动分割成为一个具有挑战性的问题。在这个领域,建议使用不同的深度学习(DL)模型来帮助医生。在这项工作中,提出了一种新的深度卷积神经网络(CNN)架构来克服这些缺点。我们的贡献包括三个方面。首先,我们利用基于强度归一化的预处理步骤来提高图像的质量。其次,我们提出了一种基于CNN的自动分割模型。新方案包含各种卷积层,所有层都利用3 × 3核,以及一个完全连接层。最后,我们利用一种后处理方法来改善所建议模型的分割结果。我们基于多模态脑肿瘤图像分割挑战数据集(BRATS 2017)评估了所提出的技术。所得结果表明,与几种技术相比,该模型是有效的。
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Glioma segmentation based on deep CNN
Brain tumor segmentation represents a hard job for radiologists as the brain is the most complicated and complex organ. Among the several brain tumors that existed, gliomas are the most aggressive and common. They lead to a short life in their highest grade especially. It is usually the most found tumors, which have various shapes, sizes, and brightness. It can appear anywhere in the brain. These causes make the automatic brain tumor segmentation a challenging problem. In this area, different Deep Learning (DL) models are suggested to help doctors. In this work, a new deep Convolutional Neural Network (CNN) architecture is presented to surpass these drawbacks. Our contributions incorporate three aspects. First, we exploited a pre-processing step based on intensity normalization with the goal to enhance the quality of the images. Second, we suggested an automatic segmentation model using CNN. The new scheme contains various convolutional layers, all exploiting 3 × 3 kernels, and one fully connected layer. Finally, we exploit a post-processing approach with the goal to ameliorate the segmentation results of the suggested model. We have evaluated the proposed technique based on the Multimodal Brain Tumor Image Segmentation Challenge datasets (BRATS 2017). The gained results provide the effectiveness of the suggested model compared with several techniques.
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