Analyzing an embedded sensor with timed automata in uppaal

ACM Trans. Embed. Comput. Syst. Pub Date : 2013-12-01 DOI:10.1145/2539036.2539040

T. Bourke, A. Sowmya

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引用次数: 5

Abstract

An infrared sensor is modeled and analyzed in Uppaal. The sensor typifies the sort of component that engineers regularly integrate into larger systems by writing interface hardware and software. In all, three main models are developed. In the first model, the timing diagram of the sensor is interpreted and modeled as a timed safety automaton. This model serves as a specification for the complete system. A second model that emphasizes the separate roles of driver and sensor is then developed. It is validated against the timing diagram model using an existing construction that permits the verification of timed trace inclusion, for certain models, by reachability analysis (i.e., model checking). A transmission correctness property is also stated by means of an auxiliary automaton and shown to be satisfied by the model. A third model is created from an assembly language driver program, using a direct translation from the instruction set of a processor with simple timing behavior. This model is validated against the driver component of the second timing diagram model using the timed trace inclusion validation technique. The approach and its limitations offer insight into the nature and challenges of programming in real time.

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一种具有时间自动机的嵌入式传感器在upal中的应用

在Uppaal对红外传感器进行了建模和分析。传感器是工程师们通过编写接口硬件和软件，将其集成到大型系统中的那种典型组件。总共开发了三种主要模型。在第一个模型中，传感器的时序图被解释并建模为一个定时安全自动机。该模型可作为整个系统的规范。第二种模型强调驾驶员和传感器的独立作用。通过可达性分析(即模型检查)，使用允许对特定模型的定时跟踪包含进行验证的现有构造，对时序图模型进行验证。通过辅助自动机说明了传输正确性，并证明了该模型是满足的。第三种模型是由汇编语言驱动程序创建的，使用具有简单计时行为的处理器指令集的直接翻译。该模型使用计时轨迹包含验证技术对第二个时序图模型的驱动组件进行验证。该方法及其局限性提供了对实时编程的本质和挑战的洞察。

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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ACM Trans. Embed. Comput. Syst.

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