Brain Storm Optimization Algorithm with an Adaptive Parameter Control Strategy for Finding Multiple Optimal Solutions

IF 2.9 4区计算机科学 International Journal of Computational Intelligence Systems Pub Date : 2023-09-26 DOI:10.1007/s44196-023-00326-2

Yuhui Zhang, Wenhong Wei, Shaohao Xie, Zijia Wang

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Abstract

Abstract Real-world optimization problems often have multiple optimal solutions and simultaneously finding these optimal solutions is beneficial yet challenging. Brain storm optimization (BSO) is a relatively new paradigm of swarm intelligence algorithm that has been shown to be effective in solving global optimization problems, but it has not been fully exploited for multimodal optimization problems. A simple control strategy for the step size parameter in BSO cannot meet the need of optima finding task in multimodal landscapes and can possibly be refined and optimized. In this paper, we propose an adaptive BSO (ABSO) algorithm that adaptively adjusts the step size parameter according to the quality of newly created solutions. Extensive experiments are conducted on a set of multimodal optimization problems to evaluate the performance of ABSO and the experimental results show that ABSO outperforms existing BSO algorithms and some recently developed algorithms. BSO has great potential in multimodal optimization and is expected to be useful for solving real-world optimization problems that have multiple optimal solutions.

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基于自适应参数控制策略的头脑风暴优化算法求解多个最优解

现实世界的优化问题通常有多个最优解，同时找到这些最优解是有益的，但也是具有挑战性的。脑风暴优化算法(Brain storm optimization, BSO)是一种相对较新的群体智能算法范式，已被证明在解决全局优化问题上是有效的，但尚未充分利用它来解决多模态优化问题。BSO中步长参数的简单控制策略不能满足多模态环境下寻优任务的需要，有可能进行细化和优化。在本文中，我们提出了一种自适应BSO (ABSO)算法，该算法根据新创建的解的质量自适应地调整步长参数。针对多模态优化问题进行了大量的实验，实验结果表明，ABSO算法的性能优于现有的BSO算法和最近开发的一些算法。BSO在多模态优化中具有很大的潜力，有望用于解决具有多个最优解的现实优化问题。

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来源期刊

International Journal of Computational Intelligence Systems 工程技术-计算机：跨学科应用

自引率

3.40%

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期刊介绍： The International Journal of Computational Intelligence Systems publishes original research on all aspects of applied computational intelligence, especially targeting papers demonstrating the use of techniques and methods originating from computational intelligence theory. The core theories of computational intelligence are fuzzy logic, neural networks, evolutionary computation and probabilistic reasoning. The journal publishes only articles related to the use of computational intelligence and broadly covers the following topics: -Autonomous reasoning- Bio-informatics- Cloud computing- Condition monitoring- Data science- Data mining- Data visualization- Decision support systems- Fault diagnosis- Intelligent information retrieval- Human-machine interaction and interfaces- Image processing- Internet and networks- Noise analysis- Pattern recognition- Prediction systems- Power (nuclear) safety systems- Process and system control- Real-time systems- Risk analysis and safety-related issues- Robotics- Signal and image processing- IoT and smart environments- Systems integration- System control- System modelling and optimization- Telecommunications- Time series prediction- Warning systems- Virtual reality- Web intelligence- Deep learning