论文信息 - Online simultaneous determination of H2O and KCl in potash with LIBS coupled to convolutional and back-propagation neural networks - 字舞流文

Online simultaneous determination of H2O and KCl in potash with LIBS coupled to convolutional and back-propagation neural networks

H2O and KCl concentrations in potash have been precisely determined using LIBS online detection coupled with machine learning data processing.

Jin Yu | Bin Liu | Yuqing Zhang | Mengting Wu | Long Zou | Chen Sun | Weijie Xu | Wenhui Liu | Zengqi Yue | Sahar Shabbir | Fengye Chen | Yuqing Zhang | Weijie Xu | Long Zou | Chen-Yun Sun | B. Liu | Chen Sun | Mengting Wu | Jin Yu | Wenhui Liu | Yuqing Zhang | Weijie Xu | Fengye Chen | Jin Yu | Zengqi Yue | Sahar Shabbir | Long Zou | Mengting Wu | Wenhui Liu

[1] Zengqi Yue,et al. Machine learning efficiently corrects LIBS spectrum variation due to change of laser fluence. , 2020, Optics express.

[2] Xunpeng Jiang,et al. Detection of K in soil using time-resolved laser-induced breakdown spectroscopy based on convolutional neural networks , 2018, Plasma Science and Technology.

[3] Zengqi Yue,et al. Correlation-based carbon determination in steel without explicitly involving carbon-related emission lines in a LIBS spectrum. , 2020, Optics express.

[4] Xu Wang,et al. Convolutional neural network as a novel classification approach for laser-induced breakdown spectroscopy applications in lithological recognition , 2020 .

[5] Geoffrey E. Hinton,et al. ImageNet classification with deep convolutional neural networks , 2012, Commun. ACM.

[6] Yi-Zeng Liang,et al. An intelligent background-correction algorithm for highly fluorescent samples in Raman spectroscopy , 2010 .

[7] Luís Aguiar-Conraria,et al. The Continuous Wavelet Transform: Moving Beyond Uni‐ and Bivariate Analysis , 2014 .

[8] R. M. Engelbrecht,et al. Determination of Potassium by Tetraphenylborate Method , 1956 .

[9] Hua Li,et al. Machine Learning Allows Calibration Models to Predict Trace Element Concentration in Soils with Generalized LIBS Spectra , 2019, Scientific Reports.

[10] S. Mahadevan,et al. A study of machine learning regression methods for major elemental analysis of rocks using laser-induced breakdown spectroscopy , 2015 .

[11] M. Gaft,et al. Online analysis of potassium fertilizers by Laser-Induced Breakdown Spectroscopy , 2010 .

[12] Eric W. Hoppe,et al. The quick and ultrasensitive determination of K in NaI using inductively coupled plasma mass spectrometry , 2017 .

[13] Shicheng Zhao,et al. Temporal and spatial variation of soil available potassium in China (1990–2012) , 2015 .

[14] Reinhard Noll,et al. LIBS analyses for industrial applications – an overview of developments from 2014 to 2018 , 2018 .

[15] Shan Qing,et al. Development of an online X-ray fluorescence analysis system for heavy metals measurement in cement raw meal , 2016 .

[16] Zengqi Yue,et al. Determination of minor metal elements in steel using laser-induced breakdown spectroscopy combined with machine learning algorithms , 2020 .

[17] Zengqi Yue,et al. Total alkali silica classification of rocks with LIBS: influences of the chemical and physical matrix effects , 2020 .

[18] Liwen Zhang,et al. A hybrid random forest method fusing wavelet transform and variable importance for the quantitative analysis of K in potassic salt ore using laser-induced breakdown spectroscopy , 2020 .

[19] Michael Gaft,et al. Industrial Online Raw Materials Analyzer Based on Laser-Induced Breakdown Spectroscopy , 2014, Applied spectroscopy.