The geometry of adversarial training in binary classification

IF 1.4 4区数学 Q2 MATHEMATICS, APPLIED

Information and Inference-A Journal of the Ima Pub Date : 2022-08-01 DOI:10.1093/imaiai/iaac029

Leon Bungert;Nicolás García Trillos;Ryan Murray

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引用次数: 13

Abstract

We establish an equivalence between a family of adversarial training problems for non-parametric binary classification and a family of regularized risk minimization problems where the regularizer is a nonlocal perimeter functional. The resulting regularized risk minimization problems admit exact convex relaxations of the type $L^1+\text{(nonlocal)}\operatorname{TV}$ , a form frequently studied in image analysis and graph-based learning. A rich geometric structure is revealed by this reformulation which in turn allows us to establish a series of properties of optimal solutions of the original problem, including the existence of minimal and maximal solutions (interpreted in a suitable sense) and the existence of regular solutions (also interpreted in a suitable sense). In addition, we highlight how the connection between adversarial training and perimeter minimization problems provides a novel, directly interpretable, statistical motivation for a family of regularized risk minimization problems involving perimeter/total variation. The majority of our theoretical results are independent of the distance used to define adversarial attacks.

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二元分类中对抗性训练的几何结构

我们在非参数二元分类的对抗性训练问题族和正则化风险最小化问题族之间建立了等价性，其中正则化子是非局部周边函数。由此产生的正则化风险最小化问题允许类型为$L^1+\text{（非局部）}\operatorname{TV}$的精确凸松弛，这是图像分析和基于图的学习中经常研究的一种形式。这种重新表述揭示了丰富的几何结构，这反过来又使我们能够建立原始问题最优解的一系列性质，包括极小解和极大解的存在性（在适当的意义上解释）以及正则解的存在（也在适当的义义上解释）。此外，我们强调了对抗性训练和周长最小化问题之间的联系如何为涉及周长/总变异的正则化风险最小化问题家族提供了一种新的、可直接解释的统计动机。我们的大多数理论结果与用于定义对抗性攻击的距离无关。

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

Information and Inference-A Journal of the Ima Multiple-

CiteScore

3.90

自引率

0.00%

发文量