无监督随机森林。

IF 2.1 4区 数学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Statistical Analysis and Data Mining Pub Date : 2021-04-01 Epub Date: 2021-02-05 DOI:10.1002/sam.11498
Alejandro Mantero, Hemant Ishwaran
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引用次数: 14

摘要

聚类是一种新的随机森林无监督机器学习算法。sidClustering的第一步涉及所谓的特征的sidification:将特征错开以具有互斥范围(称为交错交互数据[SID]主要特征),然后形成所有成对交互(称为SID交互特征)。然后使用多变量随机森林(能够处理连续变量和分类变量)来预测SID的主要特征。我们建立唯一性的sification和显示如何多元杂质分裂能够识别簇。所提出的sidClustering方法善于发现由分类变量和连续变量引起的聚类,并且保留了随机森林的所有重要优点。该方法使用模拟和真实数据以及两个深入的案例研究来说明,一个来自食管癌的大型多机构研究,另一个涉及心血管患者的医院收费。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unsupervised random forests.

sidClustering is a new random forests unsupervised machine learning algorithm. The first step in sidClustering involves what is called sidification of the features: staggering the features to have mutually exclusive ranges (called the staggered interaction data [SID] main features) and then forming all pairwise interactions (called the SID interaction features). Then a multivariate random forest (able to handle both continuous and categorical variables) is used to predict the SID main features. We establish uniqueness of sidification and show how multivariate impurity splitting is able to identify clusters. The proposed sidClustering method is adept at finding clusters arising from categorical and continuous variables and retains all the important advantages of random forests. The method is illustrated using simulated and real data as well as two in depth case studies, one from a large multi-institutional study of esophageal cancer, and the other involving hospital charges for cardiovascular patients.

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来源期刊
Statistical Analysis and Data Mining
Statistical Analysis and Data Mining COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCEC-COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
CiteScore
3.20
自引率
7.70%
发文量
43
期刊介绍: Statistical Analysis and Data Mining addresses the broad area of data analysis, including statistical approaches, machine learning, data mining, and applications. Topics include statistical and computational approaches for analyzing massive and complex datasets, novel statistical and/or machine learning methods and theory, and state-of-the-art applications with high impact. Of special interest are articles that describe innovative analytical techniques, and discuss their application to real problems, in such a way that they are accessible and beneficial to domain experts across science, engineering, and commerce. The focus of the journal is on papers which satisfy one or more of the following criteria: Solve data analysis problems associated with massive, complex datasets Develop innovative statistical approaches, machine learning algorithms, or methods integrating ideas across disciplines, e.g., statistics, computer science, electrical engineering, operation research. Formulate and solve high-impact real-world problems which challenge existing paradigms via new statistical and/or computational models Provide survey to prominent research topics.
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