A novel multi-state reinforcement learning-based multi-objective evolutionary algorithm

IF 8.1 1区计算机科学 0 COMPUTER SCIENCE, INFORMATION SYSTEMS Information Sciences Pub Date : 2024-08-28 DOI:10.1016/j.ins.2024.121397

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Abstract

Multi-objective evolutionary algorithms (MOEAs) are widely employed to tackle multi-objective optimization problems (MOPs). However, the choice of different crossover operators significantly impacts the algorithm's ability to balance population diversity and convergence effectively. To enhance algorithm performance, this paper introduces a novel multi-state reinforcement learning-based multi-objective evolutionary algorithm, MRL-MOEA, which utilizes reinforcement learning (RL) to select crossover operators. In MRL-MOEA, a state model is established according to the distribution of individuals in the objective space, and different crossover operators are designed for the transition between different states. Additionally, in the process of evolution, the population still exhibits inadequate convergence in certain regions, leading to sparse areas within the regular Pareto Front (PF). To address this issue, a strategy for adjusting weight vectors has been devised to achieve uniform distribution of the PF. The experimental results of MRL-MOEA on several benchmark suites with a varying number of objectives ranging from 3 to 10, including WFG and DTLZ, demonstrate MRL-MOEA's competitiveness compared to other algorithms.

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基于强化学习的新型多目标进化算法

多目标进化算法（MOEAs）被广泛用于解决多目标优化问题（MOPs）。然而，选择不同的交叉算子会严重影响算法有效平衡种群多样性和收敛性的能力。为了提高算法性能，本文介绍了一种新颖的基于多态强化学习的多目标进化算法 MRL-MOEA，它利用强化学习（RL）来选择交叉算子。在 MRL-MOEA 中，根据目标空间中个体的分布建立状态模型，并为不同状态之间的转换设计不同的交叉算子。此外，在演化过程中，种群在某些区域仍表现出收敛性不足，导致规则帕累托前沿（PF）内区域稀疏。针对这一问题，我们设计了一种调整权重向量的策略，以实现帕累托前沿的均匀分布。MRL-MOEA 在 WFG 和 DTLZ 等多个目标数从 3 到 10 不等的基准套件上的实验结果表明，与其他算法相比，MRL-MOEA 具有很强的竞争力。

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来源期刊

Information Sciences 工程技术-计算机：信息系统

CiteScore

14.00

自引率

17.30%

发文量

1322

审稿时长

10.4 months

期刊介绍： Informatics and Computer Science Intelligent Systems Applications is an esteemed international journal that focuses on publishing original and creative research findings in the field of information sciences. We also feature a limited number of timely tutorial and surveying contributions. Our journal aims to cater to a diverse audience, including researchers, developers, managers, strategic planners, graduate students, and anyone interested in staying up-to-date with cutting-edge research in information science, knowledge engineering, and intelligent systems. While readers are expected to share a common interest in information science, they come from varying backgrounds such as engineering, mathematics, statistics, physics, computer science, cell biology, molecular biology, management science, cognitive science, neurobiology, behavioral sciences, and biochemistry.