利用子空间特征表征进行医学影像推理的少量学习。

IF 2.9 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES PLoS ONE Pub Date : 2024-11-06 eCollection Date: 2024-01-01 DOI:10.1371/journal.pone.0309368
Jiahui Liu, Keqiang Fan, Xiaohao Cai, Mahesan Niranjan
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引用次数: 0

摘要

在视觉场景识别领域,由于有大量数据集可用于训练深度神经网络,因此取得了巨大进步,但医学影像推理却不同,因为可能只有少量数据可用。在处理非常小的数据集问题(大约几百条数据)时,使用预先训练好的模型作为特征提取器,并在此特征空间中执行经典的模式识别技术,即所谓的 "少量学习 "问题,仍然可以利用深度学习的强大功能。然而,医学图像具有高度复杂性和多变性,这使得少量学习难以充分捕捉这些特征并为其建模。为了解决这些问题,我们将重点放在数据的内在特征上。我们发现,在特征空间维度与数据中的图像数量相当甚至更大的情况下,降维是必要的,通常通过主成分分析或奇异值分解(PCA/SVD)来实现。本文注意到在这种情况下使用 SVD 并不合适,因此探索了基于判别分析 (DA) 和非负矩阵因式分解 (NMF) 的两种替代方法。通过使用跨越 11 种不同疾病类型的 14 个不同数据集,我们证明了在低维情况下,判别子空间比基于 SVD 的子空间和原始特征空间有显著改善。我们还证明,在适度维度的情况下,NMF 是 SVD 的有力替代品。您可以通过以下链接访问拟议方法的实现过程。
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Few-shot learning for inference in medical imaging with subspace feature representations.

Unlike in the field of visual scene recognition, where tremendous advances have taken place due to the availability of very large datasets to train deep neural networks, inference from medical images is often hampered by the fact that only small amounts of data may be available. When working with very small dataset problems, of the order of a few hundred items of data, the power of deep learning may still be exploited by using a pre-trained model as a feature extractor and carrying out classic pattern recognition techniques in this feature space, the so-called few-shot learning problem. However, medical images are highly complex and variable, making it difficult for few-shot learning to fully capture and model these features. To address these issues, we focus on the intrinsic characteristics of the data. We find that, in regimes where the dimension of the feature space is comparable to or even larger than the number of images in the data, dimensionality reduction is a necessity and is often achieved by principal component analysis or singular value decomposition (PCA/SVD). In this paper, noting the inappropriateness of using SVD for this setting we explore two alternatives based on discriminant analysis (DA) and non-negative matrix factorization (NMF). Using 14 different datasets spanning 11 distinct disease types we demonstrate that at low dimensions, discriminant subspaces achieve significant improvements over SVD-based subspaces and the original feature space. We also show that at modest dimensions, NMF is a competitive alternative to SVD in this setting. The implementation of the proposed method is accessible via the following link.

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来源期刊
PLoS ONE
PLoS ONE 生物-生物学
CiteScore
6.20
自引率
5.40%
发文量
14242
审稿时长
3.7 months
期刊介绍: PLOS ONE is an international, peer-reviewed, open-access, online publication. PLOS ONE welcomes reports on primary research from any scientific discipline. It provides: * Open-access—freely accessible online, authors retain copyright * Fast publication times * Peer review by expert, practicing researchers * Post-publication tools to indicate quality and impact * Community-based dialogue on articles * Worldwide media coverage
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