On the Expressiveness and Complexity of Randomization in Finite State Monitors

2008 23rd Annual IEEE Symposium on Logic in Computer Science Pub Date : 2008-06-24 DOI:10.1145/1552285.1552287

Rohit Chadha, A. Sistla, Mahesh Viswanathan

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引用次数: 33

Abstract

The continuous run-time monitoring of the behavior of a system is a technique that is used both as a complementary approach to formal verification and testing to ensure reliability, as well as a means to discover emergent properties in a distributed system, like intrusion and event correlation. The monitors in all these scenarios can be abstractly viewed as automata that process a (unbounded) stream of events to and from the component being observed, and raise an ``alarm'' when an error or intrusion is discovered. These monitors indicate the absence of error or intrusion in a behavior implicitly by the absence of an alarm.In this paper we study the power of randomization in run-time monitoring. Specifically, we examine finite memory monitoring algorithms that toss coins to make decisions on the behavior they are observing. We give a number of results that characterize, topologically as well as with respect to their computational power, the sets of sequences the monitors permit. We also present results on the complexity of deciding non-emptiness of the set of sequences permitted by a monitor.

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有限状态监控中随机化的表达性和复杂性

对系统行为的连续运行时监视是一种技术，它既可以作为确保可靠性的正式验证和测试的补充方法，也可以作为发现分布式系统中紧急属性(如入侵和事件相关性)的手段。所有这些场景中的监视器都可以抽象地看作是处理被观察组件之间(无界)事件流的自动机，并在发现错误或入侵时发出“警报”。这些监视器通过不发出警报来暗示行为中没有错误或入侵。本文研究了随机化在运行时监控中的作用。具体来说，我们研究了有限内存监控算法，这些算法通过扔硬币来对它们观察到的行为做出决策。我们给出了一些结果，这些结果在拓扑和计算能力方面表征了监视器允许的序列集。我们也给出了判定监视器允许的序列集合非空的复杂性的结果。

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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2008 23rd Annual IEEE Symposium on Logic in Computer Science

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