Proving abstractions of dynamical systems through numerical simulations

Symposium and Bootcamp on the Science of Security Pub Date : 2014-01-07 DOI:10.1145/2600176.2600188

S. Mitra

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引用次数: 1

Abstract

A key question that arises in rigorous analysis of cyberphysical systems under attack involves establishing whether or not the attacked system deviates significantly from the ideal allowed behavior. This is the problem of deciding whether or not the ideal system is an abstraction of the attacked system. A quantitative variation of this question can capture how much the attacked system deviates from the ideal. Thus, algorithms for deciding abstraction relations can help measure the effect of attacks on cyberphysical systems and to develop attack detection strategies. In this paper, we present a decision procedure for proving that one nonlinear dynamical system is a quantitative abstraction of another. Directly computing the reach sets of these nonlinear systems are undecidable in general and reach set over-approximations do not give a direct way for proving abstraction. Our procedure uses (possibly inaccurate) numerical simulations and a model annotation to compute tight approximations of the observable behaviors of the system and then uses these approximations to decide on abstraction. We show that the procedure is sound and that it is guaranteed to terminate under reasonable robustness assumptions.

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通过数值模拟证明动力系统的抽象

在对遭受攻击的网络物理系统进行严格分析时，出现的一个关键问题涉及确定被攻击系统是否明显偏离理想的允许行为。这是决定理想系统是否是被攻击系统的抽象的问题。这个问题的定量变化可以捕捉到受攻击的系统偏离理想的程度。因此，决定抽象关系的算法可以帮助衡量攻击对网络物理系统的影响，并制定攻击检测策略。本文给出了一个判定过程，证明一个非线性动力系统是另一个非线性动力系统的定量抽象。一般来说，直接计算这些非线性系统的可达集是不确定的，且可达集过逼近并不能提供证明抽象的直接方法。我们的过程使用(可能不准确的)数值模拟和模型注释来计算系统可观察行为的紧密近似值，然后使用这些近似值来决定抽象。我们表明，该过程是健全的，并保证在合理的鲁棒性假设下终止。

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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Symposium and Bootcamp on the Science of Security

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