一种新的基于对立生物地理学的组合问题优化方法

Qingzheng Xu, Lemeng Guo, Na Wang, Jin Pan, Lei Wang
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引用次数: 9

摘要

本文提出了一种新的反向路径的定义。该算法的核心特点是同时考虑候选路径的节点序列和路径中相邻节点之间的距离。在某种意义上,该路径及其对应的相反路径与当前种群中最优路径的距离相同(或至少相似)。基于一种公认的基于对立学习的框架,引入基于当前最优的基于对立生物地理的优化算法,即COOBBO算法,用于解决组合问题,如旅行商问题。在8个基准问题上演示了COOBBO的性能,并与其他优化算法进行了比较。仿真结果表明,该算法的优异性能归功于对相反路径的明确定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel oppositional biogeography-based optimization for combinatorial problems
In this paper, a novel definition of opposite path is proposed. Its core feature is that the node sequence of candidate paths and the distances between adjacent nodes in the tour are considered simultaneously. In a sense, the path and its corresponding opposite path have the same (or similar, at least) distance from the optimal path in the current population. Based on an accepted framework for employing opposition-based learning, the Oppositional Biogeography-Based Optimization using the Current Optimum, called COOBBO algorithm, is introduced to solve combinatorial problem, such as traveling salesman problems. The performance of COOBBO on 8 benchmark problems is demonstrated and compared with other optimization algorithms. Simulation results illustrate that the excellent performance of our proposed algorithm is attributed to the distinct definition of opposite path.
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