非对称模糊集复杂建模的混合学习神经模糊方法

17th IEEE International Conference on Tools with Artificial Intelligence (ICTAI'05) Pub Date : 2005-11-14 DOI:10.1109/ICTAI.2005.73

Chunshien Li, K. Cheng, Jiann-Der Lee

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引用次数: 9

摘要

提出了一种具有非对称模糊集的混合学习神经模糊系统(HLNFS-A)。采用随机优化(RO)和最小二乘估计(LSE)的混合学习方法对hlfs - a系统参数进行训练，达到稳定、快速收敛的目的。在hlfs - a中，前提参数和结果参数分别由RO和LSE更新。利用所提出的不对称模糊集(AFS)，神经模糊系统在建模应用中能够捕捉到动态系统非线性特性的本质。为了证明该方法的可行性和潜力，给出了一个用于系统识别和预测的混沌时间序列实例来验证HLNFS-A的非线性映射能力。实验结果表明，所提出的HLNFS-A算法能够达到良好的系统建模性能

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Hybrid learning neuro-fuzzy approach for complex modeling using asymmetric fuzzy sets

A hybrid learning neuro-fuzzy system with asymmetric fuzzy sets (HLNFS-A) is proposed in this paper. The learning methods of random optimization (RO) and least square estimation (LSE) are used in hybrid way to train the system parameters of HLNFS-A to achieve stable and fast convergence. In the HLNFS-A, the premise and the consequent parameters are updated by RO and LSE, respectively. With the proposed asymmetric fuzzy sets (AFS), the neuro-fuzzy system can capture the essence of nonlinear property of dynamic system, when used in the application of modeling. To demonstrate the feasibility and the potential of the proposed approach, an example of chaotic time series for system identification and prediction is given to verify the nonlinear mapping capability of the HLNFS-A. The experimental results show that the proposed HLNFS-A can achieve excellent performance for system modeling

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17th IEEE International Conference on Tools with Artificial Intelligence (ICTAI'05)

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