基于深度神经网络的矩阵特征值估计及应用

IF 2.1 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Intelligent Systems Pub Date : 2022-01-01 DOI:10.1515/jisys-2022-0126
Zhi-quan Hu
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引用次数: 1

摘要

在当今科技飞速发展的时代,数字技术的发展对数据处理功能提出了越来越高的要求。工程中常用的矩阵信号对处理速度也提出了更高的要求。矩阵的特征值代表了矩阵的许多特征。其数学意义表示固有矢量的展开式,其物理意义表示振动谱。矩阵的特征值是矩阵理论研究的重点。矩阵特征值问题广泛应用于物理、化学、生物学等诸多研究领域。神经网络是通过模仿生物神经网络构建的神经元模型。自提出以来,其典型模型如递归神经网络和细胞神经网络的应用研究已成为一个新的热点。随着深度神经网络理论的出现,学者们不断结合深度神经网络计算矩阵特征值。本文旨在研究基于深度神经网络的矩阵特征值估计及其应用。本文介绍了基于深度神经网络的矩阵特征值估计的相关方法,并设计了实验来比较基于深度神经网络的矩阵特征值估计方法与传统算法的时间。研究发现,在串行算法下,基于深度神经网络的算法与传统算法相比,计算时间减少了约7%,在并行算法下,计算时间减少了约17%。设计了用Obj和RNNS模型计算矩阵特征值的实验,证明了Oja算法只适用于计算非负矩阵的最大特征值,而RNNS通常用于一般模型。
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Estimation and application of matrix eigenvalues based on deep neural network
Abstract In today’s era of rapid development in science and technology, the development of digital technology has increasingly higher requirements for data processing functions. The matrix signal commonly used in engineering applications also puts forward higher requirements for processing speed. The eigenvalues of the matrix represent many characteristics of the matrix. Its mathematical meaning represents the expansion of the inherent vector, and its physical meaning represents the spectrum of vibration. The eigenvalue of a matrix is the focus of matrix theory. The problem of matrix eigenvalues is widely used in many research fields such as physics, chemistry, and biology. A neural network is a neuron model constructed by imitating biological neural networks. Since it was proposed, the application research of its typical models, such as recurrent neural networks and cellular neural networks, has become a new hot spot. With the emergence of deep neural network theory, scholars continue to combine deep neural networks to calculate matrix eigenvalues. This article aims to study the estimation and application of matrix eigenvalues based on deep neural networks. This article introduces the related methods of matrix eigenvalue estimation based on deep neural networks, and also designs experiments to compare the time of matrix eigenvalue estimation methods based on deep neural networks and traditional algorithms. It was found that under the serial algorithm, the algorithm based on the deep neural network reduced the calculation time by about 7% compared with the traditional algorithm, and under the parallel algorithm, the calculation time was reduced by about 17%. Experiments are also designed to calculate matrix eigenvalues with Obj and recurrent neural networks (RNNS) models, which proves that the Oja algorithm is only suitable for calculating the maximum eigenvalues of non-negative matrices, while RNNS is commonly used in general models.
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来源期刊
Journal of Intelligent Systems
Journal of Intelligent Systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
5.90
自引率
3.30%
发文量
77
审稿时长
51 weeks
期刊介绍: The Journal of Intelligent Systems aims to provide research and review papers, as well as Brief Communications at an interdisciplinary level, with the field of intelligent systems providing the focal point. This field includes areas like artificial intelligence, models and computational theories of human cognition, perception and motivation; brain models, artificial neural nets and neural computing. It covers contributions from the social, human and computer sciences to the analysis and application of information technology.
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