针对污秽绝缘子红外热像特征数据具有多重相关性的特点,提出基于PLS(Partial Least Squares,PLS)回归分析的高压绝缘子污秽等级判定方法。在最大限度保留原有数据信息的前提下,建立起高压绝缘子污秽特征量与污秽等级之间的PLS回归模型方...针对污秽绝缘子红外热像特征数据具有多重相关性的特点,提出基于PLS(Partial Least Squares,PLS)回归分析的高压绝缘子污秽等级判定方法。在最大限度保留原有数据信息的前提下,建立起高压绝缘子污秽特征量与污秽等级之间的PLS回归模型方程,通过对回归模型方程进行变量投影重要性指标分析,可以得到各个特征量对污秽等级判定结果的影响程度。此方法有效解决了自变量之间的多重相关性问题,量化了污秽特征量与污秽等级之间的关系。测试结果表明,将PLS回归分析应用于高压绝缘子污秽等级的判定,科学可靠,准确率高,具有较强的实用性。展开更多
The number of latent variables (LVs) or the factor number is a key parameter in PLS modeling to obtain a correct prediction. Although lots of work have been done on this issue, it is still a difficult task to determin...The number of latent variables (LVs) or the factor number is a key parameter in PLS modeling to obtain a correct prediction. Although lots of work have been done on this issue, it is still a difficult task to determine a suitable LV number in practical uses. A method named independent factor diagnostics (IFD) is proposed for investigation of the contribution of each LV to the predicted results on the basis of discussion about the determination of LV number in PLS modeling for near infrared (NIR) spectra of complex samples. The NIR spectra of three data sets of complex samples, including a public data set and two tobacco lamina ones, are investigated. It is shown that several high order LVs constitute main contributions to the predicted results, albeit the contribution of the low order LVs should not be neglected in the PLS models. Therefore, in practical uses of PLS for analysis of complex samples, it may be better to use a slightly large LV number for NIR spectral analysis of complex samples.展开更多
文摘针对污秽绝缘子红外热像特征数据具有多重相关性的特点,提出基于PLS(Partial Least Squares,PLS)回归分析的高压绝缘子污秽等级判定方法。在最大限度保留原有数据信息的前提下,建立起高压绝缘子污秽特征量与污秽等级之间的PLS回归模型方程,通过对回归模型方程进行变量投影重要性指标分析,可以得到各个特征量对污秽等级判定结果的影响程度。此方法有效解决了自变量之间的多重相关性问题,量化了污秽特征量与污秽等级之间的关系。测试结果表明,将PLS回归分析应用于高压绝缘子污秽等级的判定,科学可靠,准确率高,具有较强的实用性。
基金Supported by National Basic Research Program of China (973 Program) (2009CB320602), National Natural Science Foundation of China (60721003, 60736026), and Changjiang Professorship by Ministry of Education of P. R. China
基金Supported by the National Natural Science Foundation of China (Grant Nos. 20775036 & 20835002)
文摘The number of latent variables (LVs) or the factor number is a key parameter in PLS modeling to obtain a correct prediction. Although lots of work have been done on this issue, it is still a difficult task to determine a suitable LV number in practical uses. A method named independent factor diagnostics (IFD) is proposed for investigation of the contribution of each LV to the predicted results on the basis of discussion about the determination of LV number in PLS modeling for near infrared (NIR) spectra of complex samples. The NIR spectra of three data sets of complex samples, including a public data set and two tobacco lamina ones, are investigated. It is shown that several high order LVs constitute main contributions to the predicted results, albeit the contribution of the low order LVs should not be neglected in the PLS models. Therefore, in practical uses of PLS for analysis of complex samples, it may be better to use a slightly large LV number for NIR spectral analysis of complex samples.