Neural networks for solving constrained Steiner tree problem

Author

Pornavalai, Chotipat ; Chakraborty, Goutam ; Shiratori, Norio

Author_Institution

Graduate Sch. of Inf. Sci., Tohoku Univ., Sendai, Japan

Volume

4

fYear

1995

fDate

Nov/Dec 1995

Firstpage

1867

Abstract

A Hopfield neural network model for finding an optimal or shortest path between two nodes in a graph was proposed recently in some literature. In this paper, the authors present a modified version of the Hopfield model to find an optimal tree (least total cost tree) from a source node to a number of destination nodes, where each path from source to a destination must satisfy a constraint condition (delay bound condition). This problem is called the constrained Steiner tree (CST) problem, and was proved to be NP-complete. A new adaptive coefficient control method for the proposed Hopfield energy function is also developed. Through computer simulation it is shown that the proposed model could always find a near-optimal valid solution

Keywords

Hopfield neural nets; computational complexity; matrix algebra; trees (mathematics); Hopfield energy function; Hopfield neural network model; NP-complete; adaptive coefficient control method; constrained Steiner tree problem; constraint condition; delay bound condition; least total cost tree; optimal path; shortest path; Adaptive control; Cost function; Delay; Neural networks; Programmable control; Roads; Routing; Shortest path problem; Telecommunication traffic; Tree graphs;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks, 1995. Proceedings., IEEE International Conference on

Conference_Location

Perth, WA

Print_ISBN

0-7803-2768-3

Type

conf

DOI

10.1109/ICNN.1995.488906

Filename

488906