Tuning-Free Online Robust Principal Component Analysis through Implicit Regularization

Lakshmi Jayalal, Gokularam Muthukrishnan, Sheetal Kalyani
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Abstract

The performance of the standard Online Robust Principal Component Analysis (OR-PCA) technique depends on the optimum tuning of the explicit regularizers and this tuning is dataset sensitive. We aim to remove the dependency on these tuning parameters by using implicit regularization. We propose to use the implicit regularization effect of various modified gradient descents to make OR-PCA tuning free. Our method incorporates three different versions of modified gradient descent that separately but naturally encourage sparsity and low-rank structures in the data. The proposed method performs comparable or better than the tuned OR-PCA for both simulated and real-world datasets. Tuning-free ORPCA makes it more scalable for large datasets since we do not require dataset-dependent parameter tuning.
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通过隐含正则化实现无调整在线稳健主成分分析
标准在线稳健主成分分析(OR-PCA)技术的性能取决于显式正则化的最佳调整,而这种调整对数据集非常敏感。我们的目标是通过使用隐式正则化来消除对调整参数的依赖。我们建议利用各种修正梯度下降的隐式正则化效果,使 OR-PCA 的调整不受限制。我们的方法采用了三种不同版本的修正梯度下降法,分别自然地鼓励数据中的稀疏性和低秩结构。在模拟数据集和实际数据集上,所提出的方法都比经过调整的 OR-PCA 性能更好。
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