Condition Monitoring for Power Converters via Deep One-Class Classification

2021 20th IEEE International Conference on Machine Learning and Applications (ICMLA) Pub Date : 2021-12-01 DOI:10.1109/ICMLA52953.2021.00244

Nikola Marković, D. Vahle, V. Staudt, D. Kolossa

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引用次数: 1

Abstract

We introduce a novel hybrid approach for the early detection of power converter faults, focusing on the use case of modular multilevel converters. The proposed method is based on training a deep one-class classifier, which learns the characteristics of the normal system operation and can hence recognize deviations even without any training on potential fault conditions of the system. In order to achieve robust and reliable performance, the diagnosis of the system state utilizes short sequences of observations, which are combined through a probabilistic model. The decision about the system state can then take the form of monitoring the T2 test statistics, which allows us to control the maximum classification error. This proposed method, Reliability-guided One-Class Classification (ROCC) was tested on data recorded from a Modular Multilevel Converter. The approach is shown to be effective in all test cases, leading to reliable diagnostics even though the classifier is applied to a wide range of unseen conditions.

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基于深度一类分类的电力变流器状态监测

以模块化多电平变换器为例，介绍了一种新型的混合故障早期检测方法。该方法基于深度单类分类器的训练，该分类器学习系统正常运行的特征，因此即使不需要对系统的潜在故障条件进行任何训练，也可以识别偏差。为了实现鲁棒和可靠的性能，系统状态的诊断利用短序列的观测，这些观测通过概率模型组合。然后，关于系统状态的决策可以采用监视T2测试统计数据的形式，这允许我们控制最大分类错误。在模块化多电平变换器记录的数据上，对所提出的可靠性指导一类分类方法(ROCC)进行了验证。该方法在所有测试用例中都被证明是有效的，即使分类器应用于大量未见过的条件，也会导致可靠的诊断。

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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2021 20th IEEE International Conference on Machine Learning and Applications (ICMLA)

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