盲源分离在线性执行器电气和机械故障健康监测中的应用

R. Michaud, Romain Breuneval, E. Boutleux, J. Huillery, G. Clerc, B. Mansouri
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引用次数: 0

摘要

本文提出了一种用于线性致动器健康监测的自动故障隔离和诊断链,该线性致动器由永磁同步电机驱动的滚柱螺杆组成。考虑并诊断了四种健康状况:健康状况、定子绕组短路、滚柱螺杆机械间隙以及两种故障的组合。为了分离故障特征,将经验模式分解应用于电机电流,然后进行独立分量分析,自动隔离故障特征,并进行诊断的分类步骤。所提出的新颖性包括独立部件的自动处理,以将短路的影响与齿隙的影响隔离开来。与早期的工作相比,这种隔离步骤不需要人工干预来选择感兴趣的信号,因此适用于实时车载诊断。此外,结果表明,独立分量分析在诊断中发挥着重要作用:它的遗漏导致分类器的诊断性能降低,以及类可分性度量的降低。
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Application of blind source separation to the health monitoring of electrical and mechanical faults in a linear actuator
This paper proposes an automated fault isolation and diagnostic chain for the health monitoring of a linear actuator composed of a roller screw driven by a permanent magnet synchronous motor. Four health conditions are considered and diagnosed: the healthy condition, a short circuit in the stator windings, a mechanical backlash in the roller screw, and the combination of both faults. In order to separate the fault signatures, empirical mode decomposition is applied to the motor current, followed by independent component analysis, automatic isolation of the fault signatures, and a classification step for the diagnosis. The novelty proposed consists of an automatic processing of the independent components to isolate the effects of the short-circuit from the effects of the backlash. This isolation step, in contrast to earlier works, requires no human intervention to select signals of interest, making it suitable to real-time onboard diagnostics. Furthermore, results show that independent component analysis occupies an important role in the diagnosis: its omission leads to a reduction in the diagnostic performance of the classifier as well as a reduction in measures of class separability.
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来源期刊
AIMS Electronics and Electrical Engineering
AIMS Electronics and Electrical Engineering Engineering-Control and Systems Engineering
CiteScore
2.40
自引率
0.00%
发文量
19
审稿时长
8 weeks
期刊最新文献
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