Abstract
BackgroundThe 3D chromatogram generated by High Performance Liquid Chromatography-Diode Array Detector (HPLC-DAD) has been researched widely in the field of herbal medicine, grape wine, agriculture, petroleum and so on. Currently, most of the methods used for separating a 3D chromatogram need to know the compounds' number in advance, which could be impossible especially when the compounds are complex or white noise exist. New method which extracts compounds from 3D chromatogram directly is needed.MethodsIn this paper, a new separation model named parallel Independent Component Analysis constrained by Reference Curve (pICARC) was proposed to transform the separation problem to a multi-parameter optimization issue. It was not necessary to know the number of compounds in the optimization. In order to find all the solutions, an algorithm named multi-areas Genetic Algorithm (mGA) was proposed, where multiple areas of candidate solutions were constructed according to the fitness and distances among the chromosomes.ResultsSimulations and experiments on a real life HPLC-DAD data set were used to demonstrate our method and its effectiveness. Through simulations, it can be seen that our method can separate 3D chromatogram to chromatogram peaks and spectra successfully even when they severely overlapped. It is also shown by the experiments that our method is effective to solve real HPLC-DAD data set.ConclusionsOur method can separate 3D chromatogram successfully without knowing the compounds' number in advance, which is fast and effective.
Highlights
The 3D chromatogram generated by High Performance Liquid Chromatography-Diode Array Detector (HPLC-DAD) has been researched widely in the field of herbal medicine, grape wine, agriculture, petroleum and so on
In order to extract compounds directly from the data set, this paper proposed a parallel model of Independent Component Analysis constrained by Reference Curves and its solution by multi-areas Genetic Algorithm
In order to search multi optimal points, we propose an algorithm named multi-areas Genetic Algorithm
Summary
The 3D chromatogram generated by High Performance Liquid Chromatography-Diode Array Detector (HPLC-DAD) has been researched widely in the field of herbal medicine, grape wine, agriculture, petroleum and so on. New method which extracts compounds from 3D chromatogram directly is needed. Given an ultraviolet detector at the bottom of the column, a chromatogram peak represented by si(i = 1, 2, 3) is formed to reflect the concentration for corresponding compound. If using a DAD for detection, which has more than one thousand channels to detect multi-wavelength simultaneously, besides chromatogram peaks of the outflowing compounds, spectra represented by ai(i = 1, 2, 3) will be recorded. The matrices of Di and X represent ith compound and the mixture of all the compounds respectively.
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