Fuzzy serial-parallel stochastic configuration networks based on nonconvex dynamic membership function optimization

IF 8.1 1区计算机科学 0 COMPUTER SCIENCE, INFORMATION SYSTEMS Information Sciences Pub Date : 2024-10-10 DOI:10.1016/j.ins.2024.121501

Jinghui Qiao , Jiayu Qiao , Peng Gao , Zhe Bai , Ningkang Xiong

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Abstract

A fuzzy series–parallel stochastic configuration networks (F-SPSCN) is proposed based on the application of nonconvex optimization in fuzzy systems. Firstly, the kernel density estimation method is used to fit the distribution of original input data to generate dynamic nonconvex membership functions, which enhances the fuzzy system ability to handle uncertain industrial data. Then the parameters of the nonconvex membership functions are optimized based on Majorization-Minimization algorithm and Generalized Projective Gradient Descent algorithm. The optimized membership matrices and fuzzy outputs are used as inputs of the serial-parallel stochastic configuration networks to improve the overall prediction accuracy of the model. Finally, the prediction accuracy of the F-SPSCN model has been verified by performing prediction experiments with two different functions and four benchmark datasets. The F-SPSCN model demonstrates superior performance compared to other models in predicting the magnetic separation recovery ratio (MSRR) of hydrogen-based mineral phase transformation (HMPT) process for refractory iron ore.

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基于非凸动态成员函数优化的模糊串并联随机配置网络

基于非凸优化在模糊系统中的应用，提出了一种模糊串并联随机配置网络（F-SPSCN）。首先，利用核密度估计方法拟合原始输入数据的分布，生成动态非凸成员函数，从而提高模糊系统处理不确定工业数据的能力。然后，基于 Majorization-Minimization 算法和广义投影梯度下降算法对非凸会员函数的参数进行优化。优化后的成员矩阵和模糊输出被用作串并联随机配置网络的输入，以提高模型的整体预测精度。最后，通过对两种不同函数和四个基准数据集进行预测实验，验证了 F-SPSCN 模型的预测准确性。与其他模型相比，F-SPSCN 模型在预测难选铁矿石氢基矿物相转化（HMPT）过程的磁选回收率（MSRR）方面表现出更优越的性能。

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来源期刊

Information Sciences 工程技术-计算机：信息系统

CiteScore

14.00

自引率

17.30%

发文量

1322

审稿时长

10.4 months

期刊介绍： Informatics and Computer Science Intelligent Systems Applications is an esteemed international journal that focuses on publishing original and creative research findings in the field of information sciences. We also feature a limited number of timely tutorial and surveying contributions. Our journal aims to cater to a diverse audience, including researchers, developers, managers, strategic planners, graduate students, and anyone interested in staying up-to-date with cutting-edge research in information science, knowledge engineering, and intelligent systems. While readers are expected to share a common interest in information science, they come from varying backgrounds such as engineering, mathematics, statistics, physics, computer science, cell biology, molecular biology, management science, cognitive science, neurobiology, behavioral sciences, and biochemistry.

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