O-Net: An Overall Convolutional Network for Segmentation Tasks.

Omid Haji Maghsoudi, Aimilia Gastounioti, Lauren Pantalone, Christos Davatzikos, Spyridon Bakas, Despina Kontos
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引用次数: 3

Abstract

Convolutional neural networks (CNNs) have recently been popular for classification and segmentation through numerous network architectures offering a substantial performance improvement. Their value has been particularly appreciated in the domain of biomedical applications, where even a small improvement in the predicted segmented region (e.g., a malignancy) compared to the ground truth can potentially lead to better diagnosis or treatment planning. Here, we introduce a novel architecture, namely the Overall Convolutional Network (O-Net), which takes advantage of different pooling levels and convolutional layers to extract more deeper local and containing global context. Our quantitative results on 2D images from two distinct datasets show that O-Net can achieve a higher dice coefficient when compared to either a U-Net or a Pyramid Scene Parsing Net. We also look into the stability of results for training and validation sets which can show the robustness of model compared with new datasets. In addition to comparison to the decoder, we use different encoders including simple, VGG Net, and ResNet. The ResNet encoder could help to improve the results in most of the cases.

O-Net:一个用于分割任务的整体卷积网络。
卷积神经网络(cnn)最近在分类和分割方面很受欢迎,通过许多网络架构提供了实质性的性能改进。它们的价值在生物医学应用领域得到了特别的重视,在该领域,即使预测的分割区域(例如恶性肿瘤)与实际情况相比有微小的改善,也可能导致更好的诊断或治疗计划。在这里,我们引入了一种新的架构,即整体卷积网络(O-Net),它利用不同的池化级别和卷积层来提取更深入的局部和包含全局上下文。我们对来自两个不同数据集的2D图像的定量结果表明,与U-Net或金字塔场景解析网相比,O-Net可以获得更高的骰子系数。我们还研究了训练集和验证集结果的稳定性,这可以显示模型与新数据集相比的鲁棒性。除了与解码器进行比较外,我们还使用了不同的编码器,包括simple, VGG Net和ResNet。在大多数情况下,ResNet编码器可以帮助改善结果。
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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