基于马尔可夫变迁场和EfficientNet的复合电能质量扰动识别
Recognition of Composite Power Quality Disturbances Based on MTF-EfficientNet Convolutional Neural Network
付宽 1王洪新 1刘杰 1郭靖 1唐志勇 1欧洋 1陈家乐2
作者信息
- 1. 国网新疆阿克苏供电公司,新疆阿克苏 843000
- 2. 四川大学电气工程学院,四川成都 610065
- 折叠
摘要
新型电力系统中电能质量扰动问题愈加复杂和严重,多种电能质量扰动同时出现,导致传统算法识别准确率降低.提出一种基于马尔可夫变迁场和EfficientNet的复合电能质量扰动识别算法.采用马尔可夫变迁场将电能质量扰动信号可视化映射为二维特征图像;通过EfficientNet卷积神经网络处理图像数据,实现扰动信号的特征提取;利用神经架构搜索自动调节卷积神经网络超参数进行网络训练,建立电能质量扰动分类识别模型.仿真结果表明,所提方法能够准确高效地提取扰动信号特征,对复合电能质量扰动分类效果好且抗噪声能力强.
Abstract
As the new power system is being built with new energy as its main body,the number of power electronic devices connected to the grid is increasing day by day.The resultant power quality disturbances have become increasingly complex and severe,with multiple types of power quality disturbances occurring simultaneously,leading to a decrease in the recognition accuracy of traditional algorithms.To address this issue,this paper proposes a composite power quality disturbance identification algorithm based on Markov transition field and EfficientNet.Firstly,the Markov transition field is used to visualize and map power quality disturbance signals into two-dimensional feature images;secondly,the image data is processed by EfficientNet Convolutional neural network to realize the feature extraction of disturbance signal;Finally,neural architecture search is used to automatically adjust the super parameters of Convolutional neural network for network training,and a classification and recognition model of power quality disturbances is established.The simulation results show that the proposed method can accurately and efficiently extract disturbance signal features,and has good classification performance for composite power quality disturbances and strong noise resistance.
关键词
电能质量/电能质量扰动识别/马尔可夫变迁场/卷积神经网络/特征提取/模式识别Key words
power quality/identification of power quality disturbances/Markov transition field/convolutional neural network/feature extraction/pattern recognition引用本文复制引用
基金项目
国家自然科学基金(52277113)
国家电网新疆电力有限公司科技项目(D230AD230010)
出版年
2024
NETL
NSTL
万方数据