Modeling Machine Learning and Data Mining Problems with FO(·)

International Conference on Logic Programming Pub Date : 2012-09-01 DOI:10.4230/LIPIcs.ICLP.2012.14

H. Blockeel, B. Bogaerts, M. Bruynooghe, B. D. Cat, Stef De Pooter, M. Denecker, A. Labarre, J. Ramon, S. Verwer

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引用次数: 9

Abstract

This paper reports on the use of the FO(·) language and the IDP framework for modeling and solving some machine learning and data mining tasks. The core component of a model in the IDP framework is an FO(·) theory consisting of formulas in first order logic and definitions; the latter are basically logic programs where clause bodies can have arbitrary first order formulas. Hence, it is a small step for a well-versed computer scientist to start modeling. We describe some models resulting from the collaboration between IDP experts and domain experts solving machine learning and data mining tasks. A first task is in the domain of stemmatology, a domain of philology concerned with the relationship between surviving variant versions of text. A second task is about a somewhat similar problem within biology where phylogenetic trees are used to represent the evolution of species. A third and final task is about learning a minimal automaton consistent with a given set of strings. For each task, we introduce the problem, present the IDP code and report on some experiments.

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用FO建模机器学习和数据挖掘问题(·)

本文报道了使用FO(·)语言和IDP框架来建模和解决一些机器学习和数据挖掘任务。IDP框架中模型的核心组成部分是由一阶逻辑公式和定义组成的FO(·)理论;后者基本上是逻辑程序，其中子句主体可以具有任意一阶公式。因此，对于精通计算机的科学家来说，开始建模是一小步。我们描述了一些由IDP专家和领域专家解决机器学习和数据挖掘任务的合作产生的模型。第一个任务是在系统学领域，这是一个关注现存文本变体版本之间关系的语言学领域。第二个任务是关于生物学中的一个有点类似的问题，系统发育树被用来表示物种的进化。第三个也是最后一个任务是学习与给定字符串集一致的最小自动机。对于每个任务，我们都介绍了问题，给出了IDP代码并报告了一些实验。

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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International Conference on Logic Programming

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