Secretary bird optimization algorithm based on quantum computing and multiple strategies improvement for KELM diabetes classification.

IF 3.9 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Scientific Reports Pub Date : 2025-01-30 DOI:10.1038/s41598-025-87285-0

Yu Zhu, Mingxu Zhang, Qinchuan Huang, Xianbo Wu, Li Wan, Ju Huang

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Abstract

The classification of chronic diseases has long been a prominent research focus in the field of public health, with widespread application of machine learning algorithms. Diabetes is one of the chronic diseases with a high prevalence worldwide and is considered a disease in its own right. Given the widespread nature of this chronic condition, numerous researchers are striving to develop robust machine learning algorithms for accurate classification. This study introduces a revolutionary approach for accurately classifying diabetes, aiming to provide new methodologies. An improved Secretary Bird Optimization Algorithm (QHSBOA) is proposed in combination with Kernel Extreme Learning Machine (KELM) for a diabetes classification prediction model. First, the Secretary Bird Optimization Algorithm (SBOA) is enhanced by integrating a particle swarm optimization search mechanism, dynamic boundary adjustments based on optimal individuals, and quantum computing-based t-distribution variations. The performance of QHSBOA is validated using the CEC2017 benchmark suite. Subsequently, QHSBOA is used to optimize the kernel penalty parameter [Formula: see text] and bandwidth [Formula: see text] of the KELM. Comparative experiments with other classification models are conducted on diabetes datasets. The experimental results indicate that the QHSBOA-KELM classification model outperforms other comparative models in four evaluation metrics: accuracy (ACC), Matthews correlation coefficient (MCC), sensitivity, and specificity. This approach offers an effective method for the early diagnosis and prediction of diabetes.

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基于量子计算和多策略改进的秘书鸟优化算法用于KELM糖尿病分类。

慢性疾病的分类一直是公共卫生领域的一个突出研究热点，机器学习算法得到了广泛的应用。糖尿病是世界范围内发病率较高的慢性疾病之一，被认为是一种独立的疾病。鉴于这种慢性疾病的普遍性，许多研究人员正在努力开发强大的机器学习算法来进行准确的分类。本研究介绍了一种革命性的糖尿病准确分类方法，旨在提供新的方法。结合核极限学习机（KELM），提出了一种改进的秘书鸟优化算法（QHSBOA）用于糖尿病分类预测模型。首先，结合粒子群优化搜索机制、基于最优个体的动态边界调整和基于量子计算的t分布变化，对秘书鸟优化算法进行了改进。QHSBOA的性能使用CEC2017基准套件进行验证。随后，利用QHSBOA对KELM的核惩罚参数[公式：见文]和带宽[公式：见文]进行优化。在糖尿病数据集上与其他分类模型进行了对比实验。实验结果表明，QHSBOA-KELM分类模型在准确率（ACC）、马修斯相关系数（MCC）、敏感性和特异性四个评价指标上优于其他比较模型。该方法为糖尿病的早期诊断和预测提供了一种有效的方法。

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来源期刊

Scientific Reports Natural Science Disciplines-

CiteScore

7.50

自引率

4.30%

发文量

19567

审稿时长

3.9 months

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