chiPower 转换:组合数据分析中对数转换的有效替代方案

IF 1.4 4区 计算机科学 Q2 STATISTICS & PROBABILITY Advances in Data Analysis and Classification Pub Date : 2024-08-01 DOI:10.1007/s11634-024-00600-x
Michael Greenacre
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引用次数: 0

摘要

分析组合数据的方法主要是使用对数变换,以确保精确的子组合一致性,在某些情况下还能确保精确的等距性。这种方法存在的一个问题是,为了实现对数变换,必须替换大多数应用中的数据零点。另一种允许数据为零的新方法,即 "chiPower "变换,是将对应分析中的chi-square距离固有的标准化与Box-Cox幂变换的基本要素相结合。秩方变换之所以合理,是因为它定义了样本间距离,当幂次参数趋于零时,严格正数据的样本间距离趋于对数比例距离,然后等价于变换为对数比例。对于有零的数据,可以确定一个幂值,使 chiPower 变换尽可能接近对数比例变换,而无需替换零。特别是在高维数据领域,这种替代方法可以呈现高度的一致性和等距性,成为分析组合数据的有效方法。此外,在有监督学习的背景下,如果组合变量在建模框架(例如广义线性模型)中作为反应的预测因子,那么幂值就可以作为一个调整参数,通过交叉验证来优化预测的准确性。经过 chiPower 转换的变量有一个简单明了的解释,因为它们与单一的成分部分而不是比率相一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The chiPower transformation: a valid alternative to logratio transformations in compositional data analysis

The approach to analysing compositional data has been dominated by the use of logratio transformations, to ensure exact subcompositional coherence and, in some situations, exact isometry as well. A problem with this approach is that data zeros, found in most applications, have to be replaced to allow the logarithmic transformation. An alternative new approach, called the ‘chiPower’ transformation, which allows data zeros, is to combine the standardization inherent in the chi-square distance in correspondence analysis, with the essential elements of the Box-Cox power transformation. The chiPower transformation is justified because it defines between-sample distances that tend to logratio distances for strictly positive data as the power parameter tends to zero, and are then equivalent to transforming to logratios. For data with zeros, a value of the power can be identified that brings the chiPower transformation as close as possible to a logratio transformation, without having to substitute the zeros. Especially in the area of high-dimensional data, this alternative approach can present such a high level of coherence and isometry as to be a valid approach to the analysis of compositional data. Furthermore, in a supervised learning context, if the compositional variables serve as predictors of a response in a modelling framework, for example generalized linear models, then the power can be used as a tuning parameter in optimizing the accuracy of prediction through cross-validation. The chiPower-transformed variables have a straightforward interpretation, since they are identified with single compositional parts, not ratios.

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来源期刊
CiteScore
3.40
自引率
6.20%
发文量
45
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.
期刊最新文献
Editorial for ADAC issue 4 of volume 18 (2024) Special issue on “New methodologies in clustering and classification for complex and/or big data” Marginal models with individual-specific effects for the analysis of longitudinal bipartite networks Using Bagging to improve clustering methods in the context of three-dimensional shapes The chiPower transformation: a valid alternative to logratio transformations in compositional data analysis
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