一个神经网络专家系统,可以评估算法的质量,以选择最优的参数,从地震记录中使用指纹法去除低频噪声

K.Yu. Silkin
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引用次数: 0

摘要

本文综述了指纹法在地震学中的应用研究成果。这种方法可以成功地用于解决各种实际问题。我们将其作为一种有效的工具,对区域爆炸和地震的噪声地震记录进行深入分析,以选择最佳滤波频率。在指纹的帮助下选择的截止频率将允许您设计一个最佳的滤波器,不仅可靠地抑制低频噪声,而且还小心地保留它隐藏的信号。此外,该方法在噪声强度超过信号强度数倍的情况下,以及在它们的频率范围部分重叠的情况下,效果良好。基本是该方法的初始方向是在最少使用附加信息的情况下实现自动实现。总之,本文建议使用神经网络专家系统来评估指纹算法的质量。为了创建这样一个系统,我们需要探索地震学中使用人工神经网络的当前趋势。根据世界范围内的广泛经验,已经表明,人们对使用小型、低费用的网络明显重新产生了兴趣。它们所依据的原理在于,它们被看作是初级地震记录高度变换的紧凑、结构复杂的参数的训练和输入数据。正是这些参数包含了使用我们提出的算法从指纹中提取的特征。所以我们在创建神经网络专家系统方面的经验自然是成功的。结果表明,估计的可靠性非常接近指纹法的实际极限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A neural network expert system that allows assessing the quality of the algorithm for choosing the parameters of optimal removal of low-frequency noise from seismograms using the fingerprint method
The article summarizes the results of research on the application of the fingerprint method in seismology. This method can be successfully used in solving various practical problems. We have used it as an effective tool for a thorough analysis of noisy seismograms of regional explosions and earthquakes in order to select the optimal filtering frequency. The cut-off frequency selected with the help of fingerprints will allow you to design an optimal filter that not only reliably suppresses low-frequency noise, but also carefully preserves the signal it hides. Moreover, the method works well when the noise intensity exceeds the signal intensity many times over and under conditions of partial overlap of their frequency ranges. Fundamental is the initial orientation of the method towards automatic implementation with minimal use of additional information. In conclusion, this article proposes to use a neural network expert system that allows you to evaluate the quality of the fingerprint algorithm. To create such a system, we needed to explore current trends in seismology regarding the use of artificial neural networks. Based on extensive worldwide experience, it has been shown that there is a clear renewed interest in the use of small, lowcost networks. The principle on which they are based lies in their perception as training and input data of compact, complexly structured parameters of a high degree of transformation of primary seismograms. It is these parameters that include the characteristics taken from fingerprints using the algorithms we propose. So our experience in creating a neural network expert system naturally turned out to be successful. The reliability of the estimates obtained turned out to be very close to the practical limit of the fingerprint method.
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