Abstract
Transient faults appear unpredictablly and frequently in networked control systems (NCSs), which directly affect the safety of system. However, they can not be accurately identified due to various kinds of causes, so the detection of them needs more systematic and comprehensive system knowledge. Hence, a hierarchical and systematic detection approach based on function, behavior, and structure (FBS) models is proposed in this paper. The FBS models are established according to systematic knowledge of NCSs. And the transient faults are excavated in node level and system level, in which parameter match and model-based detections are employed. Moreover, the key implementation aspects of the proposed approach in NCSs are detailed on parameterization of FBS models, criteria, and feature parameters of faults, fault monitoring, fault detection, and real-time scheduling considering fault detection. At last, a simulation platform of a networked control liquid mixer system is described by Architecture Analysis and Design Language (AADL), and a transient fault is injected before the sample task in the node for fault detection. The simulation results show that the faults are exposed in the gradual detection hierarchies and the effectiveness of the detection scheme is quite promising.
Highlights
Networked control systems are widely applied in modern industrial fields, such as aerospace, automotive and transportation [1, 2]
The main contribution is that we proposed a modeling approach based on entire knowledge of networked control systems (NCSs) and a transient fault detection approach considering system realization
The behaviors of networked control liquid mixer system (NCLM) system are supported by the realized control system, which is rendered as the node behaviors, such as send, receive, schedule, and sample
Summary
Networked control systems are widely applied in modern industrial fields, such as aerospace, automotive and transportation [1, 2]. Considering that the networked control system is software-intensive, the transient fault detection in NCS needs a systematic approach containing the fault detection in embedded realization platforms. To detect the transient faults in NCSs, a novel approach is required considering entire system knowledge. The entire system knowledge is used for system modeling of NCSs and the detection of transient faults is implemented considering the system control and the system realization. This paper is intended to describe systematic transient fault detection in NCSs. The main contribution is that we proposed a modeling approach based on entire knowledge of NCSs and a transient fault detection approach considering system realization. To verify the transient fault detection approach, a unified platform based on AADL which reflects the system models is recommended.
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