基于遗传优化隶属函数的模糊关联规则挖掘聚类算法

Mehmet Kaya, R. Alhajj
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引用次数: 69

摘要

本文提出了一种基于遗传算法(GAs)的聚类方法,该方法在用户指定的最小支持值区间内动态调整模糊集以提供最大利润。这是通过调整每个定量属性的隶属函数的基本值来实现的,以便在最小支持值的一定间隔内最大化大型项目集的总和。据我们所知,这是在这个方向上的第一次努力。为了支持我们的说法,我们比较了提议的基于gas的方法和基于cure的方法。在综合事务上的实验结果表明,所提出的聚类方法在产生大项目集的数量和有趣的关联规则方面都比基于cure的聚类方法表现出更好的性能。
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A clustering algorithm with genetically optimized membership functions for fuzzy association rules mining
In this paper, we propose genetic algorithms (GAs) based clustering method, which dynamically adjusts the fuzzy sets to provide maximum profit within an interval of user specified minimum support values. This is achieved by tuning the base values of the membership functions for each quantitative attribute so as to maximize the sum of large itemsets in a certain interval of minimum support values. To the best of our knowledge, this is the first effort in this direction. To support our claim, we compare the proposed GAs-based approach with a CURE-based approach. Experimental results on synthetic transactions show that the proposed clustering method exhibits a good performance over CURE-based approach in terms of the number of produced large itemsets and interesting association rules.
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