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基于多策略自适应布谷鸟算法和改进加权核极限学习机的故障诊断模型:以风力涡轮机叶片结冰为例

Fault diagnosis model based on multi-strategy adaptive COA and improved weighted kernel ELM: A case study on wind turbine blade icing.

作者信息

Wu Xingtao, Ding Yunfei, Zhao Ruizhi, Ding Dong, Zhang Hongwei, Wang Lin

机构信息

School of Electrical Engineering, Shanghai Dianji University, Shanghai, China.

State Grid Shanghai Changxing Power Supply Company, Shanghai, China.

出版信息

PLoS One. 2025 Aug 28;20(8):e0329332. doi: 10.1371/journal.pone.0329332. eCollection 2025.

DOI:10.1371/journal.pone.0329332
PMID:40875728
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12393727/
Abstract

The icing failures of wind turbine blades are critical factors that affect both power generation efficiency and safety. To improve the diagnostic accuracy and speed, an improved weighted kernel extreme learning machine (IWKELM) optimized by multi-strategy adaptive coati optimization algorithm (MACOA) for icing fault diagnosis model is proposed, i.e., MACOA-IWKELM. Firstly, in order to improve the model optimization performance, the MACOA is proposed by introducing chaotic mapping Lévy flights, nonlinear inertial step factors, an improved coati vigilante mechanism, and an improved objective function. Secondly, the weighted kernel extreme learning machine (WKELM) is optimized by improved weighted parameters considering the influence of the internal distribution of samples on the diagnostic model. Finally, the MACOA is applied to the IWKELM and combined with the random forest (RF) dimensionality reduction technique to form the icing diagnostic model. The method is based on two sets of real SCADA data of wind turbine blade icing for comparison experiments with other models. In the two sets of experiments, the accuracy reaches 92.22% and 96.94% respectively, and the standard deviation of the accuracy in 50 experiments is 2.53% and 1.92% respectively. Keywords: Multi-strategy adaptive coati optimization algorithm; Improved weighted extreme learning machine; Wind turbine blade icing fault detection; Fault detection.

摘要

风力涡轮机叶片的结冰故障是影响发电效率和安全性的关键因素。为了提高诊断的准确性和速度,提出了一种基于多策略自适应浣熊优化算法(MACOA)优化的改进加权核极限学习机(IWKELM)用于结冰故障诊断模型,即MACOA-IWKELM。首先,为了提高模型优化性能,通过引入混沌映射、莱维飞行、非线性惯性步长因子、改进的浣熊警戒机制和改进的目标函数提出了MACOA。其次,考虑样本内部分布对诊断模型的影响,通过改进加权参数对加权核极限学习机(WKELM)进行优化。最后,将MACOA应用于IWKELM,并结合随机森林(RF)降维技术形成结冰诊断模型。该方法基于两组风力涡轮机叶片结冰的实际SCADA数据与其他模型进行对比实验。在两组实验中,准确率分别达到92.22%和96.94%,50次实验中准确率的标准差分别为2.53%和1.92%。关键词:多策略自适应浣熊优化算法;改进加权极限学习机;风力涡轮机叶片结冰故障检测;故障检测

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