基于间隔策略的信息波长选择是近红外光谱分析中广泛应用的一种方法。针对传统算法忽略非线性因素的缺点,首次考虑将最小二乘支持向量机(least-squares support vector machine,LSSVM)方法应用于间隔选择策略,进而提出了一种新的波长选...基于间隔策略的信息波长选择是近红外光谱分析中广泛应用的一种方法。针对传统算法忽略非线性因素的缺点,首次考虑将最小二乘支持向量机(least-squares support vector machine,LSSVM)方法应用于间隔选择策略,进而提出了一种新的波长选择方法iLSSVM(interval LSSVM)。该算法克服了传统间隔选择算法依赖于线性模型的缺陷,对存在较强非线性的光谱数据能够准确地选择最优信息区间,极大地减少建模变量并显著改善模型预测精度。应用两组业界标准的光谱数据来验证该算法的性能,并和传统方法进行了比较。实验结果表明,在两组数据集上该算法取得的标准预测偏差(root mean square error of prediction,RMSEP)分别比全谱PLS建模降低了20%和4%,比传统的间隔偏最小二乘算法(interval partial least-squares,iPLS)降低了28%和2%。展开更多
In this paper, asymmetric Gaussian weighting functions are introduced for the identification of linear parameter varying systems by utilizing an input–output multi-model structure. It is not required to select operat...In this paper, asymmetric Gaussian weighting functions are introduced for the identification of linear parameter varying systems by utilizing an input–output multi-model structure. It is not required to select operating points with uniform spacing and more flexibility is achieved. To verify the effectiveness of the proposed approach, several weighting functions, including linear, Gaussian and asymmetric Gaussian weighting functions, are evaluated and compared. It is demonstrated through simulations with a continuous stirred tank reactor model that the proposed approach provides more satisfactory approximation.展开更多
文摘基于间隔策略的信息波长选择是近红外光谱分析中广泛应用的一种方法。针对传统算法忽略非线性因素的缺点,首次考虑将最小二乘支持向量机(least-squares support vector machine,LSSVM)方法应用于间隔选择策略,进而提出了一种新的波长选择方法iLSSVM(interval LSSVM)。该算法克服了传统间隔选择算法依赖于线性模型的缺陷,对存在较强非线性的光谱数据能够准确地选择最优信息区间,极大地减少建模变量并显著改善模型预测精度。应用两组业界标准的光谱数据来验证该算法的性能,并和传统方法进行了比较。实验结果表明,在两组数据集上该算法取得的标准预测偏差(root mean square error of prediction,RMSEP)分别比全谱PLS建模降低了20%和4%,比传统的间隔偏最小二乘算法(interval partial least-squares,iPLS)降低了28%和2%。
基金Supported by the National Natural Science Foundation of China(21076179,61104008)National Basic Research Program of China(2012CB720500)
文摘In this paper, asymmetric Gaussian weighting functions are introduced for the identification of linear parameter varying systems by utilizing an input–output multi-model structure. It is not required to select operating points with uniform spacing and more flexibility is achieved. To verify the effectiveness of the proposed approach, several weighting functions, including linear, Gaussian and asymmetric Gaussian weighting functions, are evaluated and compared. It is demonstrated through simulations with a continuous stirred tank reactor model that the proposed approach provides more satisfactory approximation.