A Theoretical Framework for Robustness of (Deep) Classifiers against Adversarial SamplesDownload PDF

28 Mar 2024 (modified: 21 Jul 2022)ICLR 2017 Invite to WorkshopReaders: Everyone
TL;DR: We propose a theoretical framework to explain and measure model robustness and harden DNN model against adversarial attacks.
Abstract: Most machine learning classifiers, including deep neural networks, are vulnerable to adversarial examples. Such inputs are typically generated by adding small but purposeful modifications that lead to incorrect outputs while imperceptible to human eyes. The goal of this paper is not to introduce a single method, but to make theoretical steps toward fully understanding adversarial examples. By using concepts from topology, our theoretical analysis brings forth the key reasons why an adversarial example can fool a classifier ($f_1$) and adds its oracle ($f_2$, like human eyes) in such analysis. By investigating the topological relationship between two (pseudo)metric spaces corresponding to predictor $f_1$ and oracle $f_2$, we develop necessary and sufficient conditions that can determine if $f_1$ is always robust (strong-robust) against adversarial examples according to $f_2$. Interestingly our theorems indicate that just one unnecessary feature can make $f_1$ not strong-robust, and the right feature representation learning is the key to getting a classifier that is both accurate and strong robust. TL;DR: We propose a theoretical framework to explain and measure model robustness and harden DNN model against adversarial attacks.
Keywords: Deep learning
Conflicts: virginia.edu, nju.edu.cn, sjtu.edu.cn, nec-labs.com
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