具有分段隶属函数的模糊控制器的反向传播学习

2002 Annual Meeting of the North American Fuzzy Information Processing Society Proceedings. NAFIPS-FLINT 2002 (Cat. No. 02TH8622) Pub Date : 2002-08-07 DOI:10.1109/NAFIPS.2002.1018050

J. M. Adams, K. Rattan

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引用次数: 10

摘要

针对函数参数的耦合特性，提出了一种针对分块、三角形、模糊输入隶属度函数的反向传播学习方法。划分的三角输入隶属函数在工业模糊应用中很常见。将所得算法应用于具有积和推理和加权平均去模糊化的Mamdani模糊逻辑系统。该算法由标准的反向传播方法发展而来，在系统的偏导数展开式中包含了每个输入参数变化的完整影响。将该算法应用于平面双连杆机器人控制器输入参数的整定。系统响应演示了一组命令，这些命令通过离心力和科里奥利力产生交叉耦合。

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Backpropagation learning for a fuzzy controller with partitioned membership functions

A backpropagation learning method is developed for partitioned, triangular, fuzzy input membership functions to account for the coupled nature of the function parameters. Partitioned, triangular input membership functions are common in industrial fuzzy applications. The resulting algorithm is applied to a Mamdani fuzzy logic system with product-sum inference and weighted-average defuzzification. The algorithm is developed from the standard backpropagation method with the complete impact of each input parameter change included in the partial derivative expansion of the system. The algorithm is applied to tune the input parameters of a controller for a two-link, planar robot. The system response is demonstrated for a set of commands which create cross-coupling through both centrifugal and Coriolis forces.

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2002 Annual Meeting of the North American Fuzzy Information Processing Society Proceedings. NAFIPS-FLINT 2002 (Cat. No. 02TH8622)

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