用于心脏病自动医疗决策支持的可解释机器学习方法

IF 2.7 3区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Francisco Mesquita, Gonçalo Marques
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引用次数: 0

摘要

冠心病(CHD)是全球最主要的死亡原因。每年,冠心病在欧洲造成约 390 万人死亡,在欧盟造成 180 万人死亡。在欧洲和欧盟的所有死亡病例中,心脏病分别占 45% 和 37%。利用机器学习(ML)预测心脏病是最有前途的研究课题之一,因为它可以改善医疗保健,从而延长人们的寿命。然而,尽管解释预测模型结果的能力至关重要,但大多数相关研究并未提出可解释的方法。为了解决这个问题,本文提出了一种分类方法,它不仅性能可靠,而且可以解释,确保了决策过程的透明度。出于模型可解释性的考虑,本文选择了 SHapley Additive exPlanations 方法,即 SHAP 方法。这种方法对不同的分类器和参数调整技术进行了比较,提供了复制实验所需的所有细节,有助于未来从事该领域工作的研究人员。所提出的模型与文献中提出的模型性能相似,其预测结果也完全可以解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An explainable machine learning approach for automated medical decision support of heart disease

Coronary Heart Disease (CHD) is the dominant cause of mortality around the world. Every year, it causes about 3.9 million deaths in Europe and 1.8 million in the European Union (EU). It is responsible for 45 % and 37 % of all deaths in Europe and the European Union, respectively. Using machine learning (ML) to predict heart diseases is one of the most promising research topics, as it can improve healthcare and consequently increase the longevity of people's lives. However, although the ability to interpret the results of the predictive model is essential, most of the related studies do not propose explainable methods. To address this problem, this paper presents a classification method that not only exhibits reliable performance but is also interpretable, ensuring transparency in its decision-making process. SHapley Additive exPlanations, known as the SHAP method was chosen for model interpretability. This approach presents a comparison between different classifiers and parameter tuning techniques, providing all the details necessary to replicate the experiment and help future researchers working in the field. The proposed model achieves similar performance to those proposed in the literature, and its predictions are fully interpretable.

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来源期刊
Data & Knowledge Engineering
Data & Knowledge Engineering 工程技术-计算机:人工智能
CiteScore
5.00
自引率
0.00%
发文量
66
审稿时长
6 months
期刊介绍: Data & Knowledge Engineering (DKE) stimulates the exchange of ideas and interaction between these two related fields of interest. DKE reaches a world-wide audience of researchers, designers, managers and users. The major aim of the journal is to identify, investigate and analyze the underlying principles in the design and effective use of these systems.
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