A data-driven Dir-MUSIC method based on the MLP model

IF 1.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Science Measurement & Technology Pub Date : 2022-05-25 DOI:10.1049/smt2.12110

Wencong Xu, Yue Hu, Jianxun Li

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引用次数: 2

Abstract

The directional multiple signal classification (Dir-MUSIC) algorithm based on antenna gain array manifold has been proposed to find the direction of the partial discharge source successfully in substations, however, a non-linear optimisation problem in this algorithm is usually time-consuming. To achieve real-time feature, a data-driven Dir-MUSIC method based on the multilayer perception model is proposed to speed up the computing process and simultaneously guarantee the accuracy. Pre-trained the multilayer perception model, the non-linear optimisation problem can be treated as a function can be calculated directly. Input of the model is the noise matrix which can be uniquely calculated with a certain matrix measurement, and output is the estimated direction of the partial discharge source. Simulation results demonstrate that the proposed method has an excellent efficiency and relatively high accuracy, and the computing time can match the real-time demand. Additionally, two effective improvements are proposed to raise the direction accuracy and stability. Specifically, mean error is reduced from 2.58° to 2.22° with the first improvement, and from 2.58° to 1.00° with the second improvement.

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基于MLP模型的数据驱动Dir-MUSIC方法

本文提出了一种基于天线增益阵列流形的定向多信号分类(Dir-MUSIC)算法，用于变电站局部放电源方向的确定，但该算法存在非线性优化问题，耗时较长。为了实现实时性，提出了一种基于多层感知模型的数据驱动Dir-MUSIC方法，加快了计算过程，同时保证了准确性。预训练多层感知模型后，可以将非线性优化问题视为可以直接计算的函数。该模型的输入是通过一定的矩阵测量可以唯一计算出的噪声矩阵，输出是局部放电源的估计方向。仿真结果表明，该方法具有较好的效率和较高的精度，计算时间符合实时性要求。此外，还提出了两种有效的改进方法来提高方向精度和稳定性。具体来说，第一次改进的平均误差从2.58°降低到2.22°，第二次改进的平均误差从2.58°降低到1.00°。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Iet Science Measurement & Technology 工程技术-工程：电子与电气

CiteScore

4.30

自引率

7.10%

发文量

审稿时长

7.5 months

期刊介绍： IET Science, Measurement & Technology publishes papers in science, engineering and technology underpinning electronic and electrical engineering, nanotechnology and medical instrumentation.The emphasis of the journal is on theory, simulation methodologies and measurement techniques. The major themes of the journal are: - electromagnetism including electromagnetic theory, computational electromagnetics and EMC - properties and applications of dielectric, magnetic, magneto-optic, piezoelectric materials down to the nanometre scale - measurement and instrumentation including sensors, actuators, medical instrumentation, fundamentals of measurement including measurement standards, uncertainty, dissemination and calibration Applications are welcome for illustrative purposes but the novelty and originality should focus on the proposed new methods.