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引用次数: 0
摘要
流形值测量在计算机视觉和机器学习领域应用广泛。最近的研究将深度神经网络(DNN)扩展到了流形,与此同时,归一化技术也适用于多个流形,即黎曼归一化。然而,现有的大多数黎曼归一化方法都是以临时方式衍生出来的,只适用于特定的流形。本文建立了一个统一的黎曼批量归一化(RBN)技术框架。我们的框架为控制黎曼均值和方差提供了理论保证。在经验上,我们将重点放在对称正定(SPD)流形上,它拥有三种不同类型的李群结构。利用变形概念,我们将 SPD 流形上现有的李群概括为三个参数化李群族。然后,我们为 SPD 神经网络提出了由这些李群诱导的特定归一化层。我们通过雷达识别、人类动作识别和脑电图(EEG)分类等三组实验证明了这一方法的有效性。代码见 https://github.com/GitZH-Chen/LieBN.git。
A Lie Group Approach to Riemannian Batch Normalization
Manifold-valued measurements exist in numerous applications within computer
vision and machine learning. Recent studies have extended Deep Neural Networks
(DNNs) to manifolds, and concomitantly, normalization techniques have also been
adapted to several manifolds, referred to as Riemannian normalization.
Nonetheless, most of the existing Riemannian normalization methods have been
derived in an ad hoc manner and only apply to specific manifolds. This paper
establishes a unified framework for Riemannian Batch Normalization (RBN)
techniques on Lie groups. Our framework offers the theoretical guarantee of
controlling both the Riemannian mean and variance. Empirically, we focus on
Symmetric Positive Definite (SPD) manifolds, which possess three distinct types
of Lie group structures. Using the deformation concept, we generalize the
existing Lie groups on SPD manifolds into three families of parameterized Lie
groups. Specific normalization layers induced by these Lie groups are then
proposed for SPD neural networks. We demonstrate the effectiveness of our
approach through three sets of experiments: radar recognition, human action
recognition, and electroencephalography (EEG) classification. The code is
available at https://github.com/GitZH-Chen/LieBN.git.
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