Band depth based initialization of K-means for functional data clustering

IF 1.4 4区计算机科学 Q2 STATISTICS & PROBABILITY Advances in Data Analysis and Classification Pub Date : 2022-09-03 DOI:10.1007/s11634-022-00510-w

Javier Albert-Smet, Aurora Torrente, Juan Romo

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引用次数: 2

Abstract

The k-Means algorithm is one of the most popular choices for clustering data but is well-known to be sensitive to the initialization process. There is a substantial number of methods that aim at finding optimal initial seeds for k-Means, though none of them is universally valid. This paper presents an extension to longitudinal data of one of such methods, the BRIk algorithm, that relies on clustering a set of centroids derived from bootstrap replicates of the data and on the use of the versatile Modified Band Depth. In our approach we improve the BRIk method by adding a step where we fit appropriate B-splines to our observations and a resampling process that allows computational feasibility and handling issues such as noise or missing data. We have derived two techniques for providing suitable initial seeds, each of them stressing respectively the multivariate or the functional nature of the data. Our results with simulated and real data sets indicate that our Functional Data Approach to the BRIK method (FABRIk) and our Functional Data Extension of the BRIK method (FDEBRIk) are more effective than previous proposals at providing seeds to initialize k-Means in terms of clustering recovery.

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基于带深的函数数据聚类K-means初始化

k-Means算法是对数据进行聚类的最流行的选择之一，但众所周知，它对初始化过程很敏感。有大量的方法旨在为k-Means找到最佳初始种子，尽管没有一种是普遍有效的。本文对其中一种方法BRIk算法的纵向数据进行了扩展，该算法依赖于对从数据的bootstrap复制中导出的一组质心进行聚类，并使用通用的修正带深度。在我们的方法中，我们改进了BRIk方法，增加了一个步骤，在该步骤中，我们将适当的B样条拟合到我们的观测值中，并增加了重新采样过程，该过程允许计算可行性和处理噪声或数据丢失等问题。我们推导了两种提供合适初始种子的技术，每种技术都分别强调数据的多变量或函数性质。我们对模拟和真实数据集的结果表明，在提供种子以初始化聚类恢复方面的k-Means方面，我们的BRIK方法函数数据方法（FABRIk）和BRIK方法的函数数据扩展（FDEBRIk）比以前的建议更有效。

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来源期刊

Advances in Data Analysis and Classification STATISTICS & PROBABILITY-

CiteScore

3.40

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： The international journal Advances in Data Analysis and Classification (ADAC) is designed as a forum for high standard publications on research and applications concerning the extraction of knowable aspects from many types of data. It publishes articles on such topics as structural, quantitative, or statistical approaches for the analysis of data; advances in classification, clustering, and pattern recognition methods; strategies for modeling complex data and mining large data sets; methods for the extraction of knowledge from data, and applications of advanced methods in specific domains of practice. Articles illustrate how new domain-specific knowledge can be made available from data by skillful use of data analysis methods. The journal also publishes survey papers that outline, and illuminate the basic ideas and techniques of special approaches.