Data-driven Method and Interpretability Analysis for Transient Power Angle Stability Assessment

2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2) Pub Date : 2022-11-11 DOI:10.1109/EI256261.2022.10116244

Yuxiang Wu, Xiaoqing Han, Z. Niu, Boyang Yan

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引用次数: 1

Abstract

With the large-scale grid connection of Renewable energy sources as well as modern power electronics devices, the accuracy and rapidity of transient stability evaluation in power grids are increasingly stringent.The data-driven power system transient stability assessment can achieve online real-time prediction by learning the temporal characteristics before and after faults, but its application is limited by its inherent black-box nature. In this paper, an extreme gradient boosting (XGBoost) model-based transient stability assessment method is proposed for power systems, which can optimize the prediction accuracy while ensuring immediate response. To improve the interpretability of the evaluation results, the Yellowbrick algorithm is used to interpret the evaluation model prediction results from the perspective of feature importance, and the correctness of the interpretation results is verified by making predictive attribution analysis on a single sample based on Local Interpretable Model-agnostic Explanations (LIME) algorithm, which provides a reliable basis for online assessment of grid transient stability.

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暂态功率角稳定性评估的数据驱动方法及可解释性分析

随着可再生能源大规模并网以及现代电力电子设备的发展，对电网暂态稳定评估的准确性和快速性要求越来越高。数据驱动的电力系统暂态稳定评估可以通过学习故障前后的时间特征实现在线实时预测，但其固有的黑箱特性限制了其应用。本文提出了一种基于极限梯度升压(XGBoost)模型的电力系统暂态稳定评估方法，在保证即时响应的同时优化预测精度。为提高评价结果的可解释性，采用Yellowbrick算法从特征重要性角度对评价模型预测结果进行解释，并基于局部可解释模型不可知解释(Local Interpretable model -agnostic Explanations, LIME)算法对单个样本进行预测归因分析，验证解释结果的正确性，为电网暂态稳定在线评估提供可靠依据。

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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2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2)

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