Biarchetype Analysis: Simultaneous Learning of Observations and Features Based on Extremes.

IEEE transactions on pattern analysis and machine intelligence Pub Date : 2024-12-01 Epub Date: 2024-11-06 DOI:10.1109/TPAMI.2024.3400730

Aleix Alcacer, Irene Epifanio, Ximo Gual-Arnau

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Abstract

We introduce a novel exploratory technique, termed biarchetype analysis, which extends archetype analysis to simultaneously identify archetypes of both observations and features. This innovative unsupervised machine learning tool aims to represent observations and features through instances of pure types, or biarchetypes, which are easily interpretable as they embody mixtures of observations and features. Furthermore, the observations and features are expressed as mixtures of the biarchetypes, which makes the structure of the data easier to understand. We propose an algorithm to solve biarchetype analysis. Although clustering is not the primary aim of this technique, biarchetype analysis is demonstrated to offer significant advantages over biclustering methods, particularly in terms of interpretability. This is attributed to biarchetypes being extreme instances, in contrast to the centroids produced by biclustering, which inherently enhances human comprehension. The application of biarchetype analysis across various machine learning challenges underscores its value.

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双车型分析：基于极值同时学习观察结果和特征

我们介绍了一种新颖的探索性技术，称为双原型分析，它扩展了原型分析，可同时识别观察结果和特征的原型。这种创新的无监督机器学习工具旨在通过纯类型或生物原型的实例来表示观察结果和特征，由于生物原型体现了观察结果和特征的混合物，因此易于解释。此外，观察结果和特征被表示为生物类型的混合物，这使得数据结构更容易理解。我们提出了一种解决生物类型分析的算法。虽然聚类不是这项技术的主要目的，但事实证明，与双聚类方法相比，生物原型分析具有显著优势，尤其是在可解释性方面。这要归功于生物类型是极端实例，与双聚类产生的中心点形成对比，从本质上增强了人类的理解能力。生物类型分析在各种机器学习挑战中的应用彰显了它的价值，源代码和示例都可以在 https://github.com/aleixalcacer/JA-BIAA 上以 R 和 Python 的形式访问。

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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IEEE transactions on pattern analysis and machine intelligence

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