Fuzzy rule interpolation and reinforcement learning

2017 IEEE 15th International Symposium on Applied Machine Intelligence and Informatics (SAMI) Pub Date : 1900-01-01 DOI:10.1109/SAMI.2017.7880298

D. Vincze

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引用次数: 15

Abstract

Reinforcement Learning (RL) methods became popular decades ago and still maintain to be one of the mainstream topics in computational intelligence. Countless different RL methods and variants can be found in the literature, each one having its own advantages and disadvantages in a specific application domain. Representation of the revealed knowledge can be realized in several ways depending on the exact RL method, including e.g. simple discrete Q-tables, fuzzy rule-bases, artificial neural networks. Introducing interpolation within the knowledge-base allows the omission of less important, redundant information, while still keeping the system functional. A Fuzzy Rule Interpolation-based (FRI) RL method called FRIQ-learning is a method which possesses this feature. By omitting the unimportant, dependent fuzzy rules — emphasizing the cardinal entries of the knowledge representation — FRIQ-learning is also suitable for knowledge extraction. In this paper the fundamental concepts of FRIQ-learning and associated extensions of the method along with benchmarks will be discussed.

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模糊规则插值和强化学习

强化学习(RL)方法在几十年前开始流行，并且仍然是计算智能的主流主题之一。在文献中可以找到无数不同的RL方法和变体，每种方法在特定的应用领域中都有自己的优点和缺点。根据精确的RL方法，可以通过几种方式来实现所揭示的知识的表示，包括简单的离散q表、模糊规则库、人工神经网络。在知识库中引入插值允许省略不太重要的冗余信息，同时仍然保持系统的功能。一种基于模糊规则插值(FRI)的RL方法，称为friq学习，就是一种具有这一特征的方法。通过省略不重要的、依赖的模糊规则，强调知识表示的基本条目，friq学习也适用于知识提取。在本文中，将讨论friq学习的基本概念和相关的方法扩展以及基准测试。

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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2017 IEEE 15th International Symposium on Applied Machine Intelligence and Informatics (SAMI)

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