以故障为中心的系统建模，使用SysML进行可靠性测试

Proceedings of 2012 IEEE 17th International Conference on Emerging Technologies & Factory Automation (ETFA 2012) Pub Date : 2012-09-01 DOI:10.1109/ETFA.2012.6489543

A. Thoma, Benjamin Kormann, B. Vogel‐Heuser

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引用次数: 4

摘要

目前的生产工厂是高度定制和灵活的过程。这种灵活性主要通过软件实现。像IEC 61508这样的功能安全标准需要密集的测试工作来确保一定程度的完整性。系统行为的不确定性，特别是在故障情况下，使可靠性测试变得复杂。我们提出了一个将故障模型集成到SysML系统模型中的概念，用于基于模型的开发。引入的故障模型可以在两个粒度级别上进行设计，从早期开发阶段的粗糙信息到精确的数学关系。该概念应用于实验室设备的组件(旋转开关)，该组件连接三个传送带，在旋转运动期间可能发生摩擦偏差。这些模型可以为可靠性测试中的测试生成奠定基础。

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Fault-centric system modeling using SysML for reliability testing

Current production plants are highly customizable and flexible in their processes. This flexibility is mainly realized by software. Standards like IEC 61508 for functional safety demand intensive testing efforts to ensure a certain level of integrity. The uncertainty about system behavior, especially in fault situations, complicates reliability testing. We propose a concept that integrates fault models into SysML system models for model based development. The introduced fault models can be designed in two granularity levels, starting with coarse information at early development phases up to precise mathematical relations. The concept is applied to a component (rotary switch) of a laboratory plant, which connects three conveyor bands where friction deviation can occur during rotary movement. Such models can build the foundation for test generation in reliability testing.

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Proceedings of 2012 IEEE 17th International Conference on Emerging Technologies & Factory Automation (ETFA 2012)

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