基于MFU技术的GA-BPNN变压器油密度识别

Zhao Yao-hong, Yang Zhuang, Qian Yihua, Li Li, Peng Lei, Z. Qu
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引用次数: 1

摘要

基于多频超声原理、遗传算法GA和反向传播神经网络BPNN,对变压器油密度进行了预测研究。以南方电网110台变压器油为例,以油样242维多频超声数据为输入,以密度为输出,建立了基于bp神经网络的变压器油密度预测模型。通过调整隐层神经元的数量,对网络进行训练。在此基础上,引入遗传算法对网络参数进行优化。结果表明,与传统标准BPNN模型相比,GA-BPNN模型输出的变压器油密度值更接近真实值,误差小,为利用多频超声技术测试变压器油其他参数奠定了坚实的基础
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recognizing the Density of Transformer Oil Based one GA-BPNN with MFU Technology
On the basis of the principle of multi-frequency ultrasound, genetic algorithm GA and back propagation neural network BPNN, this paper proposed a prediction study of density of transformer oil. Taking 110 sets of transformer oil belonged to China southern power grid as an example, a prediction model of density of transformer oil was established based on BPNN, with the 242 dimensional multi-frequency ultrasonic data of oil sample as the input and density as the output. By adjusting the number of hidden layer neurons, the network was trained. Moreover, the genetic algorithm GA was introduced to optimize the network parameters. All results show that compared with the traditional standard BPNN model, the output value of density of transformer oil with the GA-BPNN model is much close to the real value with small errors, which lays a solid foundation to test transformer oil other parameters with tell multi-frequency ultrasonic technology
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