移动机器人控制量化模糊规则的迭代规则学习

2011 IEEE 5th International Workshop on Genetic and Evolutionary Fuzzy Systems (GEFS) Pub Date : 2011-04-11 DOI:10.1109/GEFS.2011.5949500

Ismael Rodríguez-Fdez, M. Mucientes, Alberto Bugarín-Diz

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引用次数: 2

摘要

在移动机器人中学习控制器通常需要专业知识来定义输入变量。然而，这些定义可以在生成控制器的算法中获得。这不能使用传统的模糊命题来完成，因为在一个命题中总结数十或数百个输入变量所必需的表达性很高。本文采用量化模糊规则(QFRs)模型将低级输入变量转换为高级输入变量，使其成为更适合学习控制器的输入。学习qfr的算法基于迭代规则学习方法。该算法已在移动机器人控制器学习和使用几个复杂的模拟环境中进行了测试。结果表明，该方法具有良好的性能，并与另外三种方法进行了比较。

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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Iterative Rule Learning of Quantified Fuzzy Rules for control in mobile robotics

Learning controllers in mobile robotics usually requires expert knowledge to define the input variables. However, these definitions could be obtained within the algorithm that generates the controller. This cannot be done using conventional fuzzy propositions, as the expressiveness that is necessary to summarize tens or hundreds of input variables in a proposition is high. In this paper the Quantified Fuzzy Rules (QFRs) model has been used to transform low-level input variables into high-level input variables, which are more appropriate inputs to learn a controller. The algorithm that learns QFRs is based on the Iterative Rule Learning approach. The algorithm has been tested learning a controller in mobile robotics and using several complex simulated environments. Results show a good performance of our proposal, which has been compared with another three approaches.

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2011 IEEE 5th International Workshop on Genetic and Evolutionary Fuzzy Systems (GEFS)

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