Add to ORKGThis work deals with quantitative analysis of multicomponent mud logging gas based on infrared spectra. An accurate analysis method is proposed by combining a genetic algorithm (GA) and a radial basis function neural network (RBFNN). The GA is used to screen the infrared spectrum of the mixed gas, while the selected spectral region is used as the input of the RBFNN to establish a calibration model to quantitatively analyze the components of logging gas. The analysis results demonstrate that the proposed GA-RBFNN performs better than FS-RBFNN and ES-RBFNN, and our proposed method is feasible
In digital signal processing there are number of methods for solving interpolation and approximation...
Objective: Gas pipes are laid underground where soil texture and temperature changes. The Fiber Brag...
Advanced chemometric analysis is required for rapid and reliable determination of physical and/or ch...
Infrared spectrum analysis technology can perform fast and nondestructive detection of gas and has b...
AbstractFourier transform infrared spectrometer (FTIR) has been widely used to analyze multi-compone...
Infrared absorption spectroscopy is a widely used tool to quantify and monitor compositions of gases...
This study highlights the application of radial basis function (RBF) neural networks for perdition o...
In this study, the multilayer neural networks (MLNNs) with sigmoid hidden layers and radial basis fu...
Quantitative analysis for the flue gas of natural gas-fired generator is significant for energy cons...
The use of full spectral region from near infrared spectroscopic analysis does not always end up wit...
Quantitative analysis of absorbance spectra to retrieve gas concentrations in open-path FTIR air mon...
AbstractAquifers, which play a prominent role as an effective tool to recover hydrocarbon from reser...
In biomass gasification, efficiency of energy quantification is a difficult part without finishing t...
Infrared remote sensing is an extended technique to measure ”in situ” atmospheric pollutant gas conc...
Copyright © 2014 Hui Cao et al.This is an open access article distributed under the Creative Commons...
In digital signal processing there are number of methods for solving interpolation and approximation...
Objective: Gas pipes are laid underground where soil texture and temperature changes. The Fiber Brag...
Advanced chemometric analysis is required for rapid and reliable determination of physical and/or ch...
Infrared spectrum analysis technology can perform fast and nondestructive detection of gas and has b...
AbstractFourier transform infrared spectrometer (FTIR) has been widely used to analyze multi-compone...
Infrared absorption spectroscopy is a widely used tool to quantify and monitor compositions of gases...
This study highlights the application of radial basis function (RBF) neural networks for perdition o...
In this study, the multilayer neural networks (MLNNs) with sigmoid hidden layers and radial basis fu...
Quantitative analysis for the flue gas of natural gas-fired generator is significant for energy cons...
The use of full spectral region from near infrared spectroscopic analysis does not always end up wit...
Quantitative analysis of absorbance spectra to retrieve gas concentrations in open-path FTIR air mon...
AbstractAquifers, which play a prominent role as an effective tool to recover hydrocarbon from reser...
In biomass gasification, efficiency of energy quantification is a difficult part without finishing t...
Infrared remote sensing is an extended technique to measure ”in situ” atmospheric pollutant gas conc...
Copyright © 2014 Hui Cao et al.This is an open access article distributed under the Creative Commons...
In digital signal processing there are number of methods for solving interpolation and approximation...
Objective: Gas pipes are laid underground where soil texture and temperature changes. The Fiber Brag...
Advanced chemometric analysis is required for rapid and reliable determination of physical and/or ch...