Advancing machine learning for identifying cardiovascular disease via granular computing

Ku Muhammad Naim Ku Khalif, Noryanti Muhammad, Mohd Khairul Bazli Mohd Aziz, Mohammad Isa Irawan, Mohammad Iqbal, Muhammad Nanda Setiawan
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Abstract

Machine learning in cardiovascular disease has broad applications in healthcare, automatically identifying hidden patterns in vast data without human intervention. Early-stage cardiovascular illness can benefit from machine learning models in drug selection. The integration of granular computing, specifically z-numbers, with machine learning algorithms, is suggested for cardiovascular disease identification. Granular computing enables handling unpredictable and imprecise situations, akin to human cognitive abilities. Machine learning algorithms such as Naïve Bayes, K-Nearest Neighbor (KNN), Random Forest, and Gradient Boosting are commonly used in constructing these models. Experimental findings indicate that incorporating granular computing into machine learning models enhances the ability to represent uncertainty and improves accuracy in cardiovascular disease detection.
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通过粒度计算推进识别心血管疾病的机器学习
心血管疾病方面的机器学习在医疗保健领域有着广泛的应用,它可以自动识别大量数据中隐藏的模式,而无需人工干预。在药物选择方面,早期心血管疾病可受益于机器学习模型。建议将粒度计算(特别是 z 数字)与机器学习算法相结合,用于心血管疾病的识别。粒度计算能够处理不可预测和不精确的情况,类似于人类的认知能力。在构建这些模型时,通常会使用 Naïve Bayes、K-Nearest Neighbor (KNN)、Random Forest 和 Gradient Boosting 等机器学习算法。实验结果表明,将粒度计算纳入机器学习模型可增强表示不确定性的能力,并提高心血管疾病检测的准确性。
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