A multi-objective evolutionary algorithm based on decomposition for constrained multi-objective optimization

Saúl Zapotecas Martínez, C. Coello
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引用次数: 40

Abstract

In spite of the popularity of the Multi-objective Evolutionary Algorithm based on Decomposition (MOEA/D), its use in Constrained Multi-objective Optimization Problems (CMOPs) has not been fully explored. In the last few years, there have been a few proposals to extend MOEA/D to the solution of CMOPs. However, most of these proposals have adopted selection mechanisms based on penalty functions. In this paper, we present a novel selection mechanism based on the well-known e-constraint method. The proposed approach uses information related to the neighborhood adopted in MOEA/D in order to obtain solutions which minimize the objective functions within the allowed feasible region. Our preliminary results indicate that our approach is highly competitive with respect to a state-of-the-art MOEA which solves in an efficient way the constrained test problems adopted in our comparative study.
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一种基于分解的约束多目标优化多目标进化算法
尽管基于分解的多目标进化算法(MOEA/D)很受欢迎,但其在约束多目标优化问题(cops)中的应用尚未得到充分的探讨。在过去的几年里,已经有一些将MOEA/D扩展到cops解决方案的建议。然而,这些建议大多采用了基于惩罚函数的选择机制。在本文中,我们提出了一种基于众所周知的e约束方法的新的选择机制。该方法利用MOEA/D中邻域的相关信息,在允许的可行区域内求得目标函数最小的解。我们的初步结果表明,我们的方法与最先进的MOEA相比具有很强的竞争力,后者以有效的方式解决了我们比较研究中采用的约束测试问题。
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