弯曲超平面排列的横向性与ReLU神经网络的拓扑可表达性

IF 1.6 2区数学 Q2 MATHEMATICS, APPLIED

SIAM Journal on Applied Algebra and Geometry Pub Date : 2020-08-20 DOI:10.1137/20m1368902

J. E. Grigsby, Kathryn A. Lindsey

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引用次数: 14

摘要

设F:R^n -> R为前馈ReLU神经网络。众所周知，对于任何参数的选择，F都是连续的和分段(仿射)线性的。我们为系统地研究F的结构如何影响其可能的二元分类任务决策区域的几何和拓扑结构奠定了一些基础。根据微分拓扑中光滑函数的经典级数，我们首先定义了一般的、横向的ReLU神经网络的概念，并证明了几乎所有的ReLU神经网络都是一般的、横向的。然后，我们在F域中定义了一个部分定向的线性1-复形，并确定了该复形的性质，该性质阻碍了决策域中有界连通分量的存在。我们利用这一障碍证明了具有单个隐藏层(n + 1)的泛型、横向ReLU网络F: R^n -> R的决策区域可以有不超过一个有界连通分量。

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On transversality of bent hyperplane arrangements and the topological expressiveness of ReLU neural networks

Let F:R^n -> R be a feedforward ReLU neural network. It is well-known that for any choice of parameters, F is continuous and piecewise (affine) linear. We lay some foundations for a systematic investigation of how the architecture of F impacts the geometry and topology of its possible decision regions for binary classification tasks. Following the classical progression for smooth functions in differential topology, we first define the notion of a generic, transversal ReLU neural network and show that almost all ReLU networks are generic and transversal. We then define a partially-oriented linear 1-complex in the domain of F and identify properties of this complex that yield an obstruction to the existence of bounded connected components of a decision region. We use this obstruction to prove that a decision region of a generic, transversal ReLU network F: R^n -> R with a single hidden layer of dimension (n + 1) can have no more than one bounded connected component.

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来源期刊

SIAM Journal on Applied Algebra and Geometry MATHEMATICS, APPLIED-

CiteScore

2.20

自引率

0.00%

发文量