基于前馈神经网络(FFNN)的甚低频哨声瞬态识别

IOSR Journal of Applied Physics Pub Date : 2017-07-01 DOI:10.9790/4861-0904012329

D. K. Sondhiya, S. K. Kasde, Dishansh Raj Upwar, A. Gwal

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摘要

VLF哨声瞬态的自动识别是电离层和磁层科学的一个重要的实际目标，因为它们提供了关于传播介质特别是等离子层的有用信息。我们开发了一种基于神经网络的系统来识别由DEMETER(探测震区电磁发射)卫星记录的四种类型的哨声(即弥漫性、色散性、多径性和黏性)。利用小波变换提取哨声的特征特征，并将其用于训练前馈神经网络。训练网络所需的数据来自DEMETER卫星两年(2008-2010年)的观测数据。结果表明，所提出的FFNN能准确识别哨声瞬态。

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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Identification of Very Low Frequency (VLF) Whistlers transients using Feed Forward Neural Network (FFNN)

The automatic identification of VLF whistler transients is an important practical goal for ionospheric and magnetospheric science because they give useful information regarding propagating medium particularly of the plasmasphere. We have developed a neural network based system to identify four types of whistlers (i.e diffuse, dispersive, multipath and spicky) recorded by DEMETER (Detection of electromagnetic emission form earthquake region) satellite. Wavelet transform is applied to extract the characteristics features of whistlers which are used to train the Feed Forward Neural Network (FFNN). The data required to train the network were collected from two year (2008-2010) observations of DEMETER satellite. The results show that the proposed FFNN can accurately identify the whistler transients.

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IOSR Journal of Applied Physics

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