优化与抽象:神经网络鲁棒性分析的协同方法

Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation Pub Date : 2019-04-22 DOI:10.1145/3314221.3314614

Greg Anderson, Shankara Pailoor, Işıl Dillig, Swarat Chaudhuri

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引用次数: 86

摘要

近年来，局部鲁棒性(或简称鲁棒性)的概念已成为深度神经网络的理想特性。直观地说，鲁棒性意味着输入的小扰动不会导致网络执行错误分类。本文提出了一种验证神经网络鲁棒性的新算法。我们的方法将基于梯度的反例搜索优化方法与基于抽象的证明搜索相结合，以获得一个健全的(δ -)完整的决策过程。我们的方法还采用数据驱动的方法来学习验证策略，该策略在证明搜索期间指导抽象解释。我们已经在一个名为Charon的工具中实现了所提出的方法，并在数百个基准测试中对其进行了实验评估。我们的实验表明，所提出的方法显着优于三种最先进的工具，即AI^2, Reluplex和Reluval。

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Optimization and abstraction: a synergistic approach for analyzing neural network robustness

In recent years, the notion of local robustness (or robustness for short) has emerged as a desirable property of deep neural networks. Intuitively, robustness means that small perturbations to an input do not cause the network to perform misclassifications. In this paper, we present a novel algorithm for verifying robustness properties of neural networks. Our method synergistically combines gradient-based optimization methods for counterexample search with abstraction-based proof search to obtain a sound and (δ -)complete decision procedure. Our method also employs a data-driven approach to learn a verification policy that guides abstract interpretation during proof search. We have implemented the proposed approach in a tool called Charon and experimentally evaluated it on hundreds of benchmarks. Our experiments show that the proposed approach significantly outperforms three state-of-the-art tools, namely AI^2, Reluplex, and Reluval.

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Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation

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