Robust generalized PCA for enhancing discriminability and recoverability

IF 6 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Neural Networks Pub Date : 2024-10-18 DOI:10.1016/j.neunet.2024.106814

Zhenlei Dai , Liangchen Hu , Huaijiang Sun

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引用次数: 0

Abstract

The dependency of low-dimensional embedding to principal component space seriously limits the effectiveness of existing robust principal component analysis (PCA) algorithms. Simply projecting the original sample coordinates onto orthogonal principal component directions may not effectively address various noise-corrupted scenarios, impairing both discriminability and recoverability. Our method addresses this issue through a generalized PCA (GPCA), which optimizes regression bias rather than sample mean, leading to more adaptable properties. And, we propose a robust GPCA model with joint loss and regularization based on the

ℓ_{2, μ}

norm and

ℓ_{2, ν}

norms, respectively. This approach not only mitigates sensitivity to outliers but also enhances feature extraction and selection flexibility. Additionally, we introduce a truncated and reweighted loss strategy, where truncation eliminates severely deviated outliers, and reweighting prioritizes the remaining samples. These innovations collectively improve the GPCA model’s performance. To solve the proposed model, we propose a non-greedy iterative algorithm and theoretically guarantee the convergence. Experimental results demonstrate that the proposed GPCA model outperforms the previous robust PCA models in both recoverability and discrimination.

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增强可辨别性和可恢复性的健壮通用 PCA。

低维嵌入对主成分空间的依赖性严重限制了现有稳健主成分分析（PCA）算法的有效性。简单地将原始样本坐标投影到正交主成分方向上，可能无法有效解决各种噪声干扰情况，从而影响了可辨别性和可恢复性。我们的方法通过广义 PCA（GPCA）解决了这一问题，GPCA 优化的是回归偏差而不是样本平均值，因此具有更强的适应性。此外，我们还提出了一种稳健的 GPCA 模型，该模型具有联合损失和正则化，分别基于 ℓ2,μ 规范和 ℓ2,ν 规范。这种方法不仅能降低对异常值的敏感性，还能提高特征提取和选择的灵活性。此外，我们还引入了截断和重新加权损失策略，其中截断消除了严重偏离的异常值，而重新加权则优先考虑其余样本。这些创新共同提高了 GPCA 模型的性能。为了求解所提出的模型，我们提出了一种非贪心迭代算法，并从理论上保证了算法的收敛性。实验结果表明，所提出的 GPCA 模型在可恢复性和区分度方面都优于之前的鲁棒 PCA 模型。

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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来源期刊

Neural Networks 工程技术-计算机：人工智能

CiteScore

13.90

自引率

7.70%

发文量

425

审稿时长

67 days

期刊介绍： Neural Networks is a platform that aims to foster an international community of scholars and practitioners interested in neural networks, deep learning, and other approaches to artificial intelligence and machine learning. Our journal invites submissions covering various aspects of neural networks research, from computational neuroscience and cognitive modeling to mathematical analyses and engineering applications. By providing a forum for interdisciplinary discussions between biology and technology, we aim to encourage the development of biologically-inspired artificial intelligence.