集成模块化航空电子设备从AADL到改进彩色GSPN的转换规则

Rongbin Han, Shihai Wang
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引用次数: 3

摘要

集成化模块化航空电子系统(IMA)具有减轻系统重量、提高系统运行效率等优点,但由于其资源共享机制,存在系统状态相关的安全问题。系统状态的相关性有助于IMA系统的故障传播。换句话说,当共享资源进入错误状态时,访问该资源的组件可能会在失败状态下工作。此外,该进程在系统运行期间是动态的。基于模型的方法是利用系统状态的相关性动态分析系统安全性的一种有效方法。体系结构分析与设计语言(AADL)在嵌入式系统建模方面具有优势。但是,动态地采用AADL分析系统安全性有很大的局限性。本文试图将AADL模型转化为改进的彩色GSPN模型,该模型有利于用系统运行时属性(如时间和事件发生概率)以及系统组件的其他属性进行模拟。此外,本文关注的是在不丢失包括上述属性在内的关键建模元素的情况下进行转换的过程。在此基础上,可以进行后续分析。提供了一个案例研究来说明这些转换规则的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transformation rules from AADL to improved colored GSPN for integrated modular avionics
Although integrated modular avionics (IMA) provides many advantages such as the reduced weight and higher efficiency for system operations, safety problems with correlations of system states come up due to its resource sharing mechanism. Correlations of system states contribute to the fault propagation in IMA systems. In other words, when a shared resource goes into an error state, components which have access to that resource may work in a failed state. Additionally, this process is dynamic during the system running. Model-based method is an adequate approach to analyzing system safety dynamically with correlations of system states. Architecture Analysis and Design Language (AADL) has advantage to model for embedded systems. However, it is quite limited to employ AADL dynamically for analyzing system safety. This paper seeks to translate the AADL models into improved colored GSPN models, which have advantage to simulate with system run-time properties such as time and event occurrence probabilities as well as other properties of system components. Furthermore, the paper focuses on this transformation process without any loss of key modeling elements including those properties mentioned above. Based on this work, subsequent analysis can be conducted. A case study is provided for indicating the application of these transformation rules.
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