基于粒子bernstein多项式的非线性系统辨识机器学习回归

G. Biagetti, P. Crippa, L. Falaschetti, C. Turchetti
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引用次数: 7

摘要

在非线性系统辨识中,多项式已被证明是有用的基函数。然而,未知系数的估计需要昂贵的算法,例如,它通过应用最优最小二乘方法来实现。Bernstein多项式的系数是待逼近函数在固定网格点上的值,从而避免了耗时的训练阶段。本文提出了一种新的机器学习回归方法,该方法基于粒子伯恩斯坦多项式的新函数,特别适合于解决多元回归问题。实验结果表明,该方法对非线性系统的辨识是有效的,并且与标准方法相比具有更好的辨识性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Machine learning regression based on particle bernstein polynomials for nonlinear system identification
Polynomials have shown to be useful basis functions in the identification of nonlinear systems. However estimation of the unknown coefficients requires expensive algorithms, as for instance it occurs by applying an optimal least square approach. Bernstein polynomials have the property that the coefficients are the values of the function to be approximated at points in a fixed grid, thus avoiding a time-consuming training stage. This paper presents a novel machine learning approach to regression, based on new functions named particle-Bernstein polynomials, which is particularly suitable to solve multivariate regression problems. Several experimental results show the validity of the technique for the identification of nonlinear systems and the better performance achieved with respect to the standard techniques.
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