Online-Monitoring Autonomous Transport Robots with an R-valued Temporal Logic

Felix Lorenz, H. Schlingloff
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引用次数: 7

Abstract

In this paper, we introduce real-valued temporal logic (RVTL) for online monitoring of reactive and cyber-physical systems. Our approach is based on classical metric temporal logic (MTL) with a real-valued semantics, where the truth value of a formula with respect to a finite trace depends on the distance between the end of the trace and the bound of the temporal operators in the formula. The assumed time model is dense and pointwise, i.e., the basic propositions refer to events reported by the system at specific times. We show that our logic is applicable for collaborating cyber-physical systems by giving example formulae from a case study of autonomous transport robots in a factory. We sketch an algorithm for monitoring RVTL formulae at runtime, and report on experiences with this algorithm in an actual industrial deployment of the case study.
基于r值时序逻辑的自主运输机器人在线监测
在本文中,我们引入实值时间逻辑(RVTL)用于在线监测无功系统和网络物理系统。我们的方法基于具有实值语义的经典度量时间逻辑(MTL),其中公式相对于有限轨迹的真值取决于轨迹末端与公式中时间算子界之间的距离。假设的时间模型是密集的、点向的,即基本命题是指系统在特定时间报告的事件。我们通过给出工厂自动运输机器人案例研究中的示例公式来证明我们的逻辑适用于协作的网络物理系统。我们概述了一种在运行时监控RVTL公式的算法,并报告了在实际工业部署案例研究中使用该算法的经验。
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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