用于系统识别和控制的绿篱嵌入式语言模糊神经网络

Hamed Rafiei;Mohammad-R. Akbarzadeh-T.
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引用次数: 0

摘要

在自然语言处理领域,对冲嵌入式结构通过理解语言变量和区分重叠类别做出了巨大贡献。自然语言的这一特点极大地影响了模糊神经网络(FNN)语言可解释架构的构建。在此,我们建议将对冲嵌入式语言模糊神经网络(LiFNN)的理念扩展到系统识别和控制范例中。从这一角度出发,我们利用 Stone-Weierstrass 定理得出了这一数学结构的通用近似属性,并利用 Lyapunov 函数证明了由此产生的非线性系统识别过程的稳定性。此外,拟议网络成员度中的幂激活函数可实现语言对冲解释和更精确的学习。最后,利用反向传播学习算法优化的拟议 LiFNN 在函数逼近(周期函数和二次赫米特函数)、系统识别(非线性系统)和直接自适应控制领域的几个问题上进行了评估。结果表明,提议的 LiFNN 中的成员更容易区分,平均误差减少了 50%,颗粒度和可解释性更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hedge-Embedded Linguistic Fuzzy Neural Networks for Systems Identification and Control
In the realm of natural language processing, hedge-embedded structures have contributed considerably by appreciating linguistic variables and distinguishing overlapped classes. This aspect of natural languages considerably affects the building of linguistically interpretable architectures for fuzzy neural networks (FNNs). Here, we propose extending the idea of hedge-embedded linguistic fuzzy neural networks (LiFNNs) to the systems identification and control paradigm. This perspective leads us to the universal approximation property for this mathematical construct using the Stone–Weierstrass theorem and the proof of stability for the resulting nonlinear system identification process using the Lyapunov function. Furthermore, the power activation functions in the membership degrees of the proposed network enable linguistic hedge interpretation and more precise learning. Finally, the proposed LiFNN, optimized using a backpropagation learning algorithm, is evaluated on several problems in function approximation (periodic functions and quadratic Hermite function), system identification (a nonlinear system), and direct adaptive control fields. Results show that memberships are more distinguishable in the proposed LiFNN, leading to $\sim$ 50% less error on the average and higher granulation and interpretability.
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CiteScore
7.70
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