基于同步量测量的深度学习事件检测

Proceedings of the Eleventh ACM International Conference on Future Energy Systems Pub Date : 2020-06-12 DOI:10.1145/3396851.3403513

H. Ren, Z. Hou, Heng Wang, P. Etingov

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引用次数: 0

摘要

深度学习算法已被开发用于相量测量单元(pmu)分析，旨在为电网运营商提供观察和应对与多种因素相关的电网重大实时变化(例如，发电和负载变化，不同类型的故障和设备故障)，或用于离线事件后系统诊断。在本研究中，采用并评估了基于长短期记忆(LSTM)的深度神经网络(DNN)，以确定最适合事件检测和长期异常模式提取的模型配置。提出的深度神经网络模型显示了长期预测的潜力，能够捕获PMU数据集中的非线性和非平稳混合复杂模式。使用WECC系统中的实际PMU进行模型开发和验证。

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Synchrophasor Measurements-based Events Detection Using Deep Learning

Deep learning algorithms have been developed for phasor measurement units (PMUs) analysis aiming at providing grid operators to observe and react to significant real-time changes in the grid associated with multiple factors (e.g., power generation and load variations, different type of faults, and equipment malfunction), or for offline post-event system diagnostics. In this study, a Long Short-Term Memory (LSTM)-based deep neural network (DNN) is adopted and evaluated to identify the most appropriate model configurations for event detection and longer-term anomalous pattern extraction. The proposed DNN model shows the potential on long-term predictions with the ability to capture nonlinear and nonstationary mixture complex patterns in PMU datasets. Real-world PMU in the WECC system were used for model development and validation.

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Proceedings of the Eleventh ACM International Conference on Future Energy Systems

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