Evolving Fuzzy Systems from Data Streams in Real-Time

2006 International Symposium on Evolving Fuzzy Systems Pub Date : 2006-09-07 DOI:10.1109/ISEFS.2006.251157

P. Angelov, Xiaowei Zhou

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引用次数: 243

Abstract

An approach to real-time generation of fuzzy rule-base systems of extended Takagi-Sugeno (xTS) type from data streams is proposed in the paper. The xTS fuzzy system combines both zero and first order Takagi-Sugeno (TS) type systems. The fuzzy rule-base (system structure) evolves starting 'from scratch' based on the data distribution in the joint input/output data space. An incremental clustering procedure that takes into account the non-stationary nature of the data pattern and generates clusters that are used to form fuzzy rule based systems antecedent part in on-line mode is used as a first stage of the non-iterative learning process. This structure proved to be computationally efficient and powerful to represent in a transparent way complex non-linear relationships. The decoupling of the learning task into a non-iterative, recursive (thus computationally very efficient and applicable in real-time) clustering with a modified version of the well known recursive parameter estimation technique leads to a very powerful construct - evolving xTS (exTS). It is transparent and linguistically interpretable. The contributions of this paper are: i) introduction of an adaptive recursively updated radius of the clusters (zone of influence of the fuzzy rules) that learns the data distribution/variance/scatter in each cluster; ii) a new condition to replace clusters that excludes contradictory rules; iii) an extended formulation that includes both zero order TS and simplified Mamdani multi-input-multi-output (MIMO) systems; iv) new improved formulation of the membership functions, which closer resembles the normal Gaussian distribution; v) introduction of measures of clusters quality that are used to form the antecedent parts of respective fuzzy rules, namely their age and support; vi) experimental results with a well known benchmark problem as well as with real experimental data of concentration of exhaust gases (NOx) in on-line modeling of car engine test rigs

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实时数据流演化模糊系统

提出了一种从数据流中实时生成扩展Takagi-Sugeno (xTS)型模糊规则库系统的方法。xTS模糊系统结合了零阶和一阶Takagi-Sugeno (TS)型系统。模糊规则库(系统结构)基于联合输入/输出数据空间中的数据分布“从零开始”演化。考虑到数据模式的非平稳性质并生成用于在线模式先行部分形成模糊规则系统的聚类的增量聚类过程被用作非迭代学习过程的第一阶段。这种结构被证明是计算效率高的，并且能够以透明的方式表示复杂的非线性关系。将学习任务解耦为非迭代的递归聚类(因此计算效率很高，适用于实时)，并使用众所周知的递归参数估计技术的改进版本，从而产生非常强大的结构-进化xTS (exTS)。它是透明的，在语言上是可解释的。本文的贡献是:i)引入了一个自适应递归更新的聚类半径(模糊规则的影响区)，该半径学习每个聚类中的数据分布/方差/散点;Ii)一个新的条件来取代排除矛盾规则的集群;iii)包含零阶TS和简化Mamdani多输入-多输出(MIMO)系统的扩展公式;iv)新的改进的隶属函数公式，更接近正态高斯分布;V)引入用于形成各自模糊规则的先行部分的聚类质量度量，即它们的年龄和支持度;6)在汽车发动机试验台在线建模中，对一个著名的基准问题和尾气(NOx)浓度的真实实验数据进行了实验结果分析

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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2006 International Symposium on Evolving Fuzzy Systems

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