Shikha Prasher, Leema Nelson, A. S. Sindhu, S. Sumathi, Mukta Jagdish
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引用次数: 1
摘要
在本研究中,建立了一个用于能源系统偶然性分类的机器学习模型。通过从能源基础设施中提取大量数据,并进行早期突发事件检测分析,可以实现更大的成本降低。通过挖掘可以降低偶然性分析的复杂性,从而减少硬件的使用。本研究采用多类支持向量机(Multi-Class Support Vector machine, MCSVM)和多类相关向量机(Multi-Class Relevance Vector machine, MCRVM)两种不同的机器学习算法,利用挖掘的数据(包括电压、产生的功率和与线的角度)对不同的事故级别进行分类。结合数据清理和分析作为一种数据转换技术。主成分分析(PCA)是一种将数据降维进行分类的方法。利用多类支持向量机和RVM的训练模型,将得到的线数据输出映射到综合应急指数上,生成训练模型。由此产生的模型将作为一个分类黑箱,将情况分为正常、警报或低偶然。在ieee30总线系统上进行了MATLAB仿真,结果表明,将偶然性划分为三个级别是令人满意的。
MCSVM and MCRVM based Contingency Classification Model
In this study, a machine learning model for contingency classification of an energy system was developed. A greater cost reduction can be achieved from the huge amount of data extracted from the energy infrastructure, and analysis of early contingency detection is performed. The complexity of contingency analysis can be reduced by mining, which reduces the hardware use. In this research, two different machine learning algorithms, a Multi-Class Support Vector Machine (MCSVM) and a Multi-Class Relevance Vector Machine (MCRVM), are used to classify the different contingency levels using the mined data, which comprises the voltage, power generated, and angles from line. Combined data cleaning and analysis served as a data transformation technique. Principal Component Analysis (PCA) is used to reduce the dimensionality of data for classification. The trained model using Multi-class SVM and RVM was generated using the line data output mapped on the composite contingency index obtained from it. The model thus generated would act as a classification black box that would classify the condition as normal, alarming or lowly contingent. A MATLAB simulation was carried out on an IEEE 30 bus system and classification of the contingency into three levels of contingency was observed to be satisfactory.
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