基于灰狼优化器的Levy飞行分解多目标优化

Masoumeh Khubroo, S. J. Mousavirad
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引用次数: 4

摘要

优化技术的目标是找到优化问题的最佳解决方案。在单目标问题中,最优解是目标函数的最优值,而在多目标问题中,由于存在多个相互冲突的目标函数,解决方案的选择并不是一项简单的任务。有许多不同的应用,如图像处理和数据挖掘,可以表述为一个多目标问题。本文提出了一种新的基于分解的多目标优化方法,该方法利用灰狼优化器将问题分解为若干个子问题,并同时对所有子问题进行检验。该算法利用子问题之间的邻域关系得到Pareto前沿。该算法还采用了征费飞行分布,增加了算法的探索和开发特性,提高了搜索能力。我们提出的算法的性能在UF族基准函数上进行了评估,根据不同的度量,如倒代距离(IGD)、代距离(GD)、超体积(HV)和间隔(SP)。实验结果表明了该方法的优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Levy Flight-based Decomposition Multi-objective Optimization Based on Grey Wolf Optimizer
The goal of an optimization technique is to find the best solution to an optimization problem. In a single-objective problem, the best solution is the optimal value for the objective function, while in a multi-objective problem, the selection of solutions is not a straightforward task because there are several objective functions which are in conflict. There are many diverse applications such as image processing and data mining, which can be formulated as a multi-objective problem. This paper presents a new decomposition-based multi-objective optimization method using the grey wolf optimizer, which transforms the problem into several sub-problems and examines all the sub-problems simultaneously. Our proposed algorithm obtains the Pareto front using a neighborhood relation among the sub-problems. The levy flight distribution has also been used which increases the exploration and exploitation features in the algorithm in order to improve the search ability. The performance of our proposed algorithm is evaluated on UF family of benchmark functions in terms of different metric such as inverted generational distance (IGD), generational distance (GD), hyper-volume (HV), and spacing (SP). The experimental results indicate the superior performance of the proposed method.
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