Neural network model of heteroassociative memory for the classification task

Q3 Computer Science
T. Martyniuk, B. Krukivskyi, L. Kupershtein, Vitaliy Lukichov
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引用次数: 2

Abstract

The subject of study in this article is the features of structural organization and functioning of the improved Hamming network as a model of neural network heteroassociative memory for classification by discriminant functions. The goal is to improve the neural network classifier based on the Hamming network, which implements the criterion of maximum similarity using discriminant functions and does not have restrictions on the representation of input data (not only binary data). The tasks: analyze the capabilities of associative memory models using neural networks as an example; analyze the features of classification on the principles of discriminant analysis; develop the structure of a neural network classifier as a model of neural network heteroassociative memory; perform simulation modeling of the classification process on the example of medical diagnosis. The methods used are a mathematical model of the functioning of a neural network as a classifier, and simulation in C#. The following results have been obtained: the structure of the neural network classifier has been improved through the formation connection matrix of a hidden layer from pre-calculated coefficients of linear discriminant functions, and the connection matrix of the output layer in the form symmetrical matrix with zeros on the main diagonal. This allows not only to simplify m connections, where m is the number of classes, in the structure of the output layer of the neural network classifier, but also to speed up the classification process, as well as to implement classification by the maximum of discriminant functions. Conclusions. The scientific novelty of the results obtained is as follows: the neural network classification method has been improved using pre-calculated elements of the connection matrices in the hidden and output layers of the classifier, which does not imply a long process of direct neural network learning with using discriminant functions; the structural organization of a neural network classifier is proposed, which is an improvement of the Hamming network as a model of heteroassociative memory, that allows using this classifier in a decision support system for medical diagnosis; the removal of positive feedback in neurons of the competitive (output) layer is implemented, which allows not only simplifies the structure of the neural network classifier but also speeds up the classification process almost 2 times, which is confirmed by the simulation results.
分类任务的异联想记忆神经网络模型
本文研究的主题是改进的Hamming网络作为一种用于判别函数分类的神经网络异联想记忆模型的结构组织和功能特征。目标是改进基于汉明网络的神经网络分类器,该分类器使用判别函数实现最大相似性标准,并且对输入数据(不仅仅是二进制数据)的表示没有限制。任务:以神经网络为例分析联想记忆模型的能力;运用判别分析原理分析了分类的特点;开发神经网络分类器的结构作为神经网络异联想记忆的模型;以医学诊断为例,对分类过程进行仿真建模。所使用的方法是神经网络作为分类器的功能的数学模型,以及C#中的模拟。得到了以下结果:通过由预先计算的线性判别函数的系数形成隐藏层的连接矩阵,以及输出层的连接阵形式为主对角线上有零的对称矩阵,改进了神经网络分类器的结构。这不仅允许在神经网络分类器的输出层的结构中简化m个连接,其中m是类的数量,还允许加快分类过程,以及通过判别函数的最大值来实现分类。结论。所获得结果的科学新颖性如下:使用分类器的隐藏层和输出层中连接矩阵的预先计算元素改进了神经网络分类方法,这并不意味着使用判别函数直接进行神经网络学习的过程很长;提出了一种神经网络分类器的结构组织,它是对作为异联想记忆模型的Hamming网络的改进,允许在医学诊断的决策支持系统中使用该分类器;实现了竞争(输出)层神经元正反馈的去除,不仅简化了神经网络分类器的结构,而且将分类过程加快了近2倍,仿真结果证实了这一点。
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
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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