Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN2097-6623

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基于PSO-RF的小電流接地系統(tǒng)單相故障選線方法

來源:電工電氣發(fā)布時間:2026-01-26 10:26瀏覽次數(shù):30

基于PSO-RF的小電流接地系統(tǒng)單相故障選線方法

鐘靈毓秀,鄭吳筱添,靳玉潔,吳夢宇,鐘建偉,廖紅華
(湖北民族大學 智能科學與工程學院,湖北 恩施 445000)
 
    摘 要:針對配電網(wǎng)小電流接地系統(tǒng)發(fā)生單相接地故障時選線過程易受噪聲干擾、選線精度較低的問題,提出了一種多判據(jù)融合的選線方法。該方法結合快速傅里葉變換(FFT)與變分模態(tài)分解(VMD)技術,提取各線路零序電流的三種特征分量,構建多維度輸入特征;在此基礎上,引入粒子群算法優(yōu)化的隨機森林分類器(PSO-RF),以故障線路為輸出標簽對模型進行訓練,實現(xiàn)對新故障數(shù)據(jù)的準確線路判別。利用 MATLAB/Simulink 軟件建立單相接地故障仿真模型進行仿真實驗,驗證所提方法的有效性,并與現(xiàn)有算法進行對比。結果表明,所提方法在選線準確率方面具有顯著優(yōu)越性,展現(xiàn)出良好的工程應用潛力。
    關鍵詞: 故障選線;小電流接地;粒子群算法;隨機森林分類器;多判據(jù)融合
    中圖分類號:TM711     文獻標識碼:B     文章編號:2097-6623(2026)01-0045-06
 
Method for Single-Phase Fault Line Selection in Low-Current
Grounding Systems Based on PSO-RF
 
ZHONG Ling-yuxiu, ZHENG Wu-xiaotian, JIN Yu-jie, WU Meng-yu, ZHONG Jian-wei, LIAO Hong-hua
(College of Intelligent Systems Science and Engineering, Hubei Minzu University, Enshi 445000, China)
 
    Abstract: In response to the issues of susceptibility to noise interference and relatively low line selection accuracy during single-phase grounding faults in the low-current grounding systems of distribution networks, this paper proposes a multi-criteria fusion-based fault line selection method. This approach integrates fast fourier transform (FFT) and variational mode decomposition (VMD) techniques to extract three characteristic components of the zero-sequence current from each line, thereby constructing multi-dimensional input features. On this basis, the random forest classifier optimized by the particle swarm optimization algorithm (PSO-RF) is proposed in this study. The model is trained using the faulty line as the output label, enabling accurate identification of fault lines in new fault data. A single-phase grounding fault simulation model was established, using MATLAB/Simulink software for simulation experiments to validate the effectiveness of the proposed method, and comparisons are made with existing algorithms. The results demonstrate that the proposed method exhibits significant superiority in fault line selection accuracy, showing promising potential for engineering applications.
    Key words: fault line selection; low-current grounding; particle swarm optimization; random forest classifier; multi-criteria fusion
 
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