Manifold Learning via Foliations and Knowledge Transfer

E. Tron, E. Fioresi
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Abstract

Understanding how real data is distributed in high dimensional spaces is the key to many tasks in machine learning. We want to provide a natural geometric structure on the space of data employing a deep ReLU neural network trained as a classifier. Through the data information matrix (DIM), a variation of the Fisher information matrix, the model will discern a singular foliation structure on the space of data. We show that the singular points of such foliation are contained in a measure zero set, and that a local regular foliation exists almost everywhere. Experiments show that the data is correlated with leaves of such foliation. Moreover we show the potential of our approach for knowledge transfer by analyzing the spectrum of the DIM to measure distances between datasets.
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通过对折和知识转移进行多元学习
了解真实数据在高维空间中的分布是机器学习中许多任务的关键。我们希望利用经过训练的深度 ReLU 神经网络作为分类器,为数据空间提供自然的几何结构。通过数据信息矩阵(DIM)--菲舍尔信息矩阵的一种变体--模型将辨别数据空间上的奇异对折结构。我们证明,这种褶皱的奇异点包含在一个度量为零的集合中,而且几乎在所有地方都存在局部规则褶皱。实验表明,数据与这种褶皱的叶子相关。此外,我们还通过分析 DIM 的频谱来测量数据集之间的差异,从而展示了我们的方法在知识转移方面的潜力。
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