弦补全问题的有偏随机密钥遗传算法

Samuel E. Silva, C. Ribeiro, Uéverton dos Santos Souza
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引用次数: 0

摘要

如果一个图的所有长度大于或等于4的循环都包含一个和弦,即一条连接循环的两个不连续顶点的边,那么这个图就是弦图。给定一个图G = (V, E),弦补全问题就是找到要加到G上的最小边集来得到一个弦图。它在稀疏线性系统、数据库管理和计算机视觉编程中都有应用。在这篇文章中,我们开发了一个有偏差的随机密钥遗传算法(BRKGA)来解决弦补全问题,该算法基于对代表三角测量的完美消除顺序的排列的操作策略。计算结果表明,所提出的启发式算法改进了建设性启发式算法填充法和最小度法的求解结果。我们还开发了一种策略,将外部构建的可行解编码为随机密钥注入到BRKGA的初始种群中,这大大改善了获得的解,并可能有利于其他有偏随机密钥遗传算法的实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A biased random-key genetic algorithm for the chordal completion problem
A graph is chordal if all its cycles of length greater than or equal to four contain a chord, i.e., an edge connecting two nonconsecutive vertices of the cycle. Given a graph G = (V, E), the chordal completion problem consists in finding the minimum set of edges to be added to G to obtain a chordal graph. It has applications in sparse linear systems, database management and computer vision programming. In this article, we developed a biased random-key genetic algorithm (BRKGA) for solving the chordal completion problem, based on the strategy of manipulating permutations that represent perfect elimination orderings of triangulations. Computational results show that the proposed heuristic improve the results of the constructive heuristics fill-in and min-degree. We also developed a strategy for injecting externally constructed feasible solutions coded as random keys into the initial population of the BRKGA that significantly improves the solutions obtained and may benefit other implementations of biased random-key genetic algorithms.
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