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Wavelength Point Recombination Method Based on Characteristic Peaks

A wavelength point and characteristic peak technology, applied in the field of wavelength point recombination based on characteristic peaks, can solve the problems of low correlation, poor spectral model effect, low precision, etc., to increase the density of wavelength points, improve the effect, and reduce the acquisition volume effect

Active Publication Date: 2022-03-01
SICHUAN CHANGHONG ELECTRIC CO LTD
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Problems solved by technology

However, portable near-infrared spectrometers are easily affected by light sources, detectors, detection methods, environmental conditions, etc., resulting in poor stability and low precision of the collected spectral data, which in turn affects the effect of the spectral model.
In particular, the currently used portable near-infrared spectrometer with wavelength equalization collects too much data information that is less relevant to the sample, which leads to problems such as poor spectral model effect and inaccurate data analysis.

Method used

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  • Wavelength Point Recombination Method Based on Characteristic Peaks
  • Wavelength Point Recombination Method Based on Characteristic Peaks
  • Wavelength Point Recombination Method Based on Characteristic Peaks

Examples

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Embodiment

[0032] Such as figure 1 As shown, a wavelength point recombination method based on characteristic peaks:

[0033] figure 1 In step 101, the spectral data of the sample to be tested is collected and modeled to obtain a spectral model M. Use the wavelength equalization portable near-infrared spectrometer to collect spectral data of the sample to be tested, and make a one-to-one correspondence between the spectral data and the component concentration of the sample to be tested, and perform PLS modeling after the correspondence is completed to obtain the original data spectral model.

[0034] In this embodiment, the wavelength range of the portable near-infrared spectrometer with equal wavelength division is 1850-2145nm, the resolution is 5nm, and there are 60 wavelength points in total. The wavelength range corresponding to the 1st to 60th wavelength points is (1850nm, 1855nm ...,2145nm), the collected spectral data is actually expressed as a set matrix of light intensity value...

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Abstract

The invention discloses a method for recombining wavelength points based on characteristic peaks, which includes: collecting spectral data of a sample to be tested and performing modeling to obtain a spectral model M; performing second-order derivation on the spectral data of the sample to be tested to obtain the characteristics of the sample to be tested According to the wavelength point distribution characteristics of the portable near-infrared spectrometer, the wavelength point density near the characteristic peak is changed; the spectral data collection and spectral modeling of the same sample to be tested are carried out again to obtain the spectral model M'; compare the spectral model M and M', and judge the model Effect. This method reorganizes and optimizes the spectral wavelength points through the characteristic peak information, reduces the acquisition amount of spectral data with less correlation between samples, and collects more spectral data that can be used to characterize the sample to be tested, thereby effectively improving the effect of the spectral model.

Description

technical field [0001] The invention relates to the technical field of spectrum wavelength point recombination, in particular to a wavelength point recombination method based on characteristic peaks. Background technique [0002] In recent years, near-infrared spectroscopy has developed rapidly and has been applied in many fields such as chemical industry, pharmaceuticals, military industry, and food. Near-infrared spectroscopy belongs to molecular spectroscopy, which can indicate material composition and property information at the molecular level. It has achieved very high benefits and great development potential in terms of economic and social impacts. [0003] However, at present, most of the detection of material composition and property information is mainly carried out by large-scale laboratory near-infrared spectroscopy instruments. Although these methods are quantitatively accurate and sensitive, the equipment required is bulky and expensive, and the sample preparat...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N21/359
CPCG01N21/359
Inventor 刘浩王毅闫晓剑张国宏
Owner SICHUAN CHANGHONG ELECTRIC CO LTD
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