A Hopfield network learning method for bipartite subgraph problem

Rong Long Wang; Zheng Tang; Qi Ping Cao

doi:10.1109/TNN.2004.836234

A Hopfield network learning method for bipartite subgraph problem

Rong Long Wang^*, Zheng Tang, Qi Ping Cao

^*Corresponding author for this work

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7 Scopus citations

Abstract

In this paper, we present a gradient ascent learning method of the Hopfield neural network for bipartite subgraph problem. The method is intended to provide a near-optimum parallel algorithm for solving the bipartite subgraph problem. To do this we use the Hopfield neural network to get a near-maximum bipartite subgraph, and increase the energy by modifying weights in a gradient ascent direction of the energy to help the network escape from the state of the near-maximum bipartite subgraph to the state of the maximum bipartite subgraph or better one. A large number of instances are simulated to verify the proposed method with the simulation results showing that the solution quality is superior to that of best existing parallel algorithm. We also test the learning method on total coloring problem. The simulation results show that our method finds optimal solution in every test graph.

Original language	English
Pages (from-to)	1458-1465
Number of pages	8
Journal	IEEE Transactions on Neural Networks
Volume	15
Issue number	6
DOIs	https://doi.org/10.1109/TNN.2004.836234
State	Published - 2004/11

Keywords

Bipartite subgraph problem
Gradient ascent learning
Hopfield neural network
NP-complete problem
Total coloring problem

ASJC Scopus subject areas

Software
Computer Science Applications
Computer Networks and Communications
Artificial Intelligence

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title = "A Hopfield network learning method for bipartite subgraph problem",

abstract = "In this paper, we present a gradient ascent learning method of the Hopfield neural network for bipartite subgraph problem. The method is intended to provide a near-optimum parallel algorithm for solving the bipartite subgraph problem. To do this we use the Hopfield neural network to get a near-maximum bipartite subgraph, and increase the energy by modifying weights in a gradient ascent direction of the energy to help the network escape from the state of the near-maximum bipartite subgraph to the state of the maximum bipartite subgraph or better one. A large number of instances are simulated to verify the proposed method with the simulation results showing that the solution quality is superior to that of best existing parallel algorithm. We also test the learning method on total coloring problem. The simulation results show that our method finds optimal solution in every test graph.",

keywords = "Bipartite subgraph problem, Gradient ascent learning, Hopfield neural network, NP-complete problem, Total coloring problem",

author = "Wang, {Rong Long} and Zheng Tang and Cao, {Qi Ping}",

note = "Funding Information: Manuscript received March 7, 2001; revised May 28, 2003. This work was supported in part by the Grant-in-Aid for Science Research of the Ministry of Education, Science, and Culture, Japan, under Grant (C)(2)12680392. R. L. Wang is with the Faculty of Engineering, Fukui University, Fukui-shi 910-8507, Japan (e-mail: wang@fuee.fukui-u.ac.jp). Z. Tang is with the Department of Intelligent Information Systems, Toyama University, Toyama-shi 930-8555, Japan (e-mail: tang@iis.toyama-u.ac.jp). Q. P. Cao is with Tateyama Systems Institute, Toyama-shi 930-0001, Japan. Digital Object Identifier 10.1109/TNN.2004.836234",

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N1 - Funding Information: Manuscript received March 7, 2001; revised May 28, 2003. This work was supported in part by the Grant-in-Aid for Science Research of the Ministry of Education, Science, and Culture, Japan, under Grant (C)(2)12680392. R. L. Wang is with the Faculty of Engineering, Fukui University, Fukui-shi 910-8507, Japan (e-mail: wang@fuee.fukui-u.ac.jp). Z. Tang is with the Department of Intelligent Information Systems, Toyama University, Toyama-shi 930-8555, Japan (e-mail: tang@iis.toyama-u.ac.jp). Q. P. Cao is with Tateyama Systems Institute, Toyama-shi 930-0001, Japan. Digital Object Identifier 10.1109/TNN.2004.836234

PY - 2004/11

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N2 - In this paper, we present a gradient ascent learning method of the Hopfield neural network for bipartite subgraph problem. The method is intended to provide a near-optimum parallel algorithm for solving the bipartite subgraph problem. To do this we use the Hopfield neural network to get a near-maximum bipartite subgraph, and increase the energy by modifying weights in a gradient ascent direction of the energy to help the network escape from the state of the near-maximum bipartite subgraph to the state of the maximum bipartite subgraph or better one. A large number of instances are simulated to verify the proposed method with the simulation results showing that the solution quality is superior to that of best existing parallel algorithm. We also test the learning method on total coloring problem. The simulation results show that our method finds optimal solution in every test graph.

AB - In this paper, we present a gradient ascent learning method of the Hopfield neural network for bipartite subgraph problem. The method is intended to provide a near-optimum parallel algorithm for solving the bipartite subgraph problem. To do this we use the Hopfield neural network to get a near-maximum bipartite subgraph, and increase the energy by modifying weights in a gradient ascent direction of the energy to help the network escape from the state of the near-maximum bipartite subgraph to the state of the maximum bipartite subgraph or better one. A large number of instances are simulated to verify the proposed method with the simulation results showing that the solution quality is superior to that of best existing parallel algorithm. We also test the learning method on total coloring problem. The simulation results show that our method finds optimal solution in every test graph.

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A Hopfield network learning method for bipartite subgraph problem

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Keywords

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