基于纯化K-Means聚类的支持向量机用于慢性肾脏疾病检测

U. Pujianto, Nur A’yuni Ramadhani, A. Wibawa
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引用次数: 4

摘要

慢性肾脏疾病是一种肾脏功能丧失的肾脏疾病,它是随着时间的推移而发生的。这种疾病在肾脏丧失25%的功能之前是可察觉的。慢性肾脏疾病需要一个正确和适当的诊断过程,以便根据诊断提供相关和适当的治疗。利用现有的先进技术,可以方便地进行诊断。采用聚类和分类等数据挖掘技术进行诊断。本研究旨在探索K-Means算法作为聚类算法和支持向量机算法作为分类算法的实现。聚类过程用于确定纯聚类上的数据,然后使用支持向量机算法对数据进行分类。在支持向量机算法的分类过程中,使用了各种非线性核,如多项式核、RBF核和sigmoid核。研究结果表明,两个聚类的分类过程准确率最高,在所有核函数中准确率均为100%。在三聚类分类中准确率最高,采用RBF核分类过程生成四聚类和五聚类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Support Vector Machine with Purified K-Means Clusters for Chronic Kidney Disease Detection
Chronic kidney disease is a kidney disease in which there is a function loss of kidney and it is occurred overtimes and years. This disease is perceptible until the kidney losses 25% of its function. Chronic kidney disease requires a correct and appropriate diagnostic process in order to provide relevant and proper treatment which is in accordance with the diagnosis. Using current developed technology, the diagnosis process can be easily conducted. The diagnosis can be carried out by employing data mining techniques such as clustering and classification. This study seeks to explore the implementation of the K-Means algorithm as a clustering algorithm and Support Vector Machine algorithm as a classification algorithm. Clustering process is used to determine data on the pure cluster then the data will be classified using the Support Vector Machine algorithm. In the classification process with the Support Vector Machine algorithm, various non-linear kernels such as polynomial kernels, RBF kernels, and sigmoid kernels are used. Based on the research results, the highest accuracy is obtained from the classification process with two clusters, which is 100% in all kernel functions. As for the highest accuracy in the classification with three clusters, four clusters, and five clusters are generated by the classification process using the RBF kernel.
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