Time-constrained failure diagnosis in distributed embedded systems

Proceedings. International Conference on Dependable Systems and Networks Pub Date : 2002-06-23 DOI:10.1109/DSN.2002.1028930

Nagarajan Kandasamy, J. Hayes, B. Murray

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引用次数: 9

Abstract

Advanced automotive control applications such as steer and brake-by-wire are typically implemented as distributed systems comprising many embedded processors, sensors, and actuators interconnected via a communication bus. They have severe cost constraints but demand a high level of safety and performance. Motivated by the need for timely diagnosis of faulty actuators in such systems, we present a general method to implement failure diagnosis under deadline and resource constraints. Actuators are diagnosed in distributed fashion by processors to provide a global view of their fault status. The diagnostic tests are implemented in software using analytical redundancy and execute concurrently with the control tasks. The proposed method solves the test scheduling problem using a static list-based approach which guarantees actuator diagnosis within designer-specified deadlines while meeting control performance goals. As a secondary objective, it also minimizes the number of required processors. We present simulation results evaluating the effectiveness of the proposed method under various design constraints.

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分布式嵌入式系统的时间约束故障诊断

先进的汽车控制应用，如转向和线控制动，通常作为分布式系统实现，包括许多嵌入式处理器、传感器和执行器，通过通信总线相互连接。它们有严重的成本限制，但要求高水平的安全性和性能。针对这类系统中执行机构故障诊断的需要，提出了一种在时间和资源约束下实现故障诊断的通用方法。执行器由处理器以分布式方式进行诊断，以提供其故障状态的全局视图。诊断测试使用分析冗余在软件中实现，并与控制任务并发执行。该方法采用基于静态列表的方法解决了测试调度问题，在满足控制性能目标的同时保证了执行器的诊断在设计人员指定的时间内完成。作为次要目标，它还可以最小化所需处理器的数量。我们给出了仿真结果，评估了在各种设计约束下所提出方法的有效性。

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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Proceedings. International Conference on Dependable Systems and Networks

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