利用蜜蜂交配启发的萤火虫算法提取风速威布尔模型参数

Abubaker Younis, Fatima Belabbes, P. Cotfas, D. Cotfas
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引用次数: 0

摘要

本研究通过整合萤火虫之间罕见的食人现象,对萤火虫算法(FA)进行了新的调整,最终开发出基于蜜蜂交配的萤火虫算法(HBMFA)。IEEE 2005 年进化计算大会(CEC)的基准函数是评估新算法在各种优化方案中有效性的严格试验场。此外,通过全面的统计分析,包括双样本 t 检验和适应度函数评估分析,该算法的优化能力得到了有力的验证。此外,还利用巴西 SR-25 站的实际风速数据来评估该算法在风速参数建模中的适用性。值得注意的是,与传统 FA 相比,HBMFA 实现了更高的求解精度,平均提高了 0.025%,尽管执行时间适度增加了约 18.74%。此外,当该算法的性能与其他常见优化算法进行比较时,这种优势依然存在。不过,HBMFA 也存在一些局限性,包括执行时间较长,这让人担心它在对计算效率要求较高的场景中的实际应用性。此外,虽然新算法在适应度值上有所改进,但与 FA 相比,这些差异在统计意义上的确定并不一致,这值得进一步研究。不过,这项工作的附加值在于推进了优化算法的最新发展,特别是提高了关键工程应用的求解精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utilizing the Honeybees Mating-Inspired Firefly Algorithm to Extract Parameters of the Wind Speed Weibull Model
This study introduces a novel adjustment to the firefly algorithm (FA) through the integration of rare instances of cannibalism among fireflies, culminating in the development of the honeybee mating-based firefly algorithm (HBMFA). The IEEE Congress on Evolutionary Computation (CEC) 2005 benchmark functions served as a rigorous testing ground to evaluate the efficacy of the new algorithm in diverse optimization scenarios. Moreover, thorough statistical analyses, including two-sample t-tests and fitness function evaluation analysis, the algorithm’s optimization capabilities were robustly validated. Additionally, the coefficient of determination, used as an objective function, was utilized with real-world wind speed data from the SR-25 station in Brazil to assess the algorithm’s applicability in modeling wind speed parameters. Notably, HBMFA achieved superior solution accuracy, with enhancements averaging 0.025% compared to conventional FA, despite a moderate increase in execution time of approximately 18.74%. Furthermore, this dominance persisted when the algorithm’s performance was compared with other common optimization algorithms. However, some limitations exist, including the longer execution time of HBMFA, raising concerns about its practical applicability in scenarios where computational efficiency is critical. Additionally, while the new algorithm demonstrates improvements in fitness values, establishing the statistical significance of these differences compared to FA is not consistently achieved, which warrants further investigation. Nevertheless, the added value of this work lies in advancing the state-of-the-art in optimization algorithms, particularly in enhancing solution accuracy for critical engineering applications.
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