变电站运行期间巡检机器人的电能质量干扰识别算法

Xu Zhou, Rui Zhang, Lin Li, Bin Wang, Xianwu Cao
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引用次数: 0

摘要

随着电能质量干扰日益复杂,提高换流站巡检机器人的速度和精度势在必行。为此,本研究设计了一种基于快速自适应 S 变换的电能质量干扰特征提取方法。该方法在自适应变换的基础上保留了主要特征信息,并消除了冗余计算。在此基础上,构建了基于多标签轻量级梯度提升器的电能质量扰动识别模型。实验结果表明,与广义 S 变换、自适应 S 变换和 S 变换相比,所提方法的总提取时间分别缩短了 96.09%、91.56% 和 91.22%。单一干扰特征提取的平均准确率为 99.56%,复杂干扰特征提取的平均准确率为 98.24%,均优于对比算法。验证了所提出的方法可以提高电能质量干扰信号的提取精度。在识别单一干扰信号时,所构建模型的准确率高达 99% 以上。在识别复合干扰信号时,模型表现出较高的准确性和较强的稳定性。实验证实了该模型的有效性。本文旨在提高电能质量干扰识别算法的速度和准确性。这将有助于在换流站工作的巡检机器人,并确保电网的稳定和安全运行。
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Identification algorithm for power quality disturbance of inspection robot in converter station during operation
As power quality disturbances become increasingly complex, it is imperative that the speed and accuracy of the inspection robot at the converter station be improved. For this purpose, this study designs a power quality disturbance feature extraction method based on the fast‐adaptive S‐transform. This method preserves the main feature information and eliminates redundant calculations on the basis of adaptive transform. On this basis, a power quality disturbance identification model built on a multi label lightweight gradient elevator is constructed. In the experimental results, compared to the generalized S‐transform, adaptive S‐transform, and S‐transform, the total extraction time of the proposed method was reduced by 96.09%, 91.56%, and 91.22%, respectively. The average accuracy of extracting features for a single disturbance was 99.56%, while for complex disturbance, it was 98.24%, both of which outperformed the comparison algorithms. It is verified that the proposed method can improve the extraction accuracy of power quality disturbance signal. In the recognition of a single disturbance signal, the constructed model exhibited a high accuracy of over 99%. In recognizing composite disturbance signals, the model demonstrated high accuracy and strong stability. Its effectiveness has been confirmed through experiments. The paper aims to enhance the speed and accuracy of power quality disturbance recognition algorithms. This will assist inspection robots working in converter stations, and ensure stable and safe operation of the power grid.
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