Comparing Boosting and Bagging for Decision Trees of Rankings

IF 1.8 4区 计算机科学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Plaia, Antonella, Buscemi, Simona, Fürnkranz, Johannes, Mencía, Eneldo Loza
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引用次数: 3

Abstract

Decision tree learning is among the most popular and most traditional families of machine learning algorithms. While these techniques excel in being quite intuitive and interpretable, they also suffer from instability: small perturbations in the training data may result in big changes in the predictions. The so-called ensemble methods combine the output of multiple trees, which makes the decision more reliable and stable. They have been primarily applied to numeric prediction problems and to classification tasks. In the last years, some attempts to extend the ensemble methods to ordinal data can be found in the literature, but no concrete methodology has been provided for preference data. In this paper, we extend decision trees, and in the following also ensemble methods to ranking data. In particular, we propose a theoretical and computational definition of bagging and boosting, two of the best known ensemble methods. In an experimental study using simulated data and real-world datasets, our results confirm that known results from classification, such as that boosting outperforms bagging, could be successfully carried over to the ranking case.

排名决策树的Boosting和Bagging比较
决策树学习是最流行和最传统的机器学习算法家族之一。虽然这些技术在相当直观和可解释方面表现出色,但它们也存在不稳定性:训练数据中的小扰动可能导致预测的大变化。所谓的集成方法将多个树的输出组合在一起,使决策更加可靠和稳定。它们主要应用于数值预测问题和分类任务。在过去的几年中,文献中有一些将集成方法扩展到有序数据的尝试,但没有提供针对偏好数据的具体方法。在本文中,我们将决策树,以及随后的集成方法扩展到排序数据。特别地,我们提出了bagging和boosting这两种最著名的系综方法的理论和计算定义。在一项使用模拟数据和真实世界数据集的实验研究中,我们的结果证实了分类的已知结果,例如提升优于套袋,可以成功地延续到排名案例中。
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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来源期刊
Journal of Classification
Journal of Classification 数学-数学跨学科应用
CiteScore
3.60
自引率
5.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: To publish original and valuable papers in the field of classification, numerical taxonomy, multidimensional scaling and other ordination techniques, clustering, tree structures and other network models (with somewhat less emphasis on principal components analysis, factor analysis, and discriminant analysis), as well as associated models and algorithms for fitting them. Articles will support advances in methodology while demonstrating compelling substantive applications. Comprehensive review articles are also acceptable. Contributions will represent disciplines such as statistics, psychology, biology, information retrieval, anthropology, archeology, astronomy, business, chemistry, computer science, economics, engineering, geography, geology, linguistics, marketing, mathematics, medicine, political science, psychiatry, sociology, and soil science.
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