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http://dx.doi.org/10.5762/KAIS.2019.20.6.19

Study on the Concentration Estimation Equation of Nitrogen Dioxide using Hyperspectral Sensor  

Jeon, Eui-Ik (R&D Center, Geostory Inc.)
Park, Jin-Woo (Division of Convergence, Korea Land and Geospatial InformatiX Corporation)
Lim, Seong-Ha (Division of Convergence, Korea Land and Geospatial InformatiX Corporation)
Kim, Dong-Woo (Department of Land and Water Environment Research, Korea Environment Institute)
Yu, Jae-Jin (Department of Environmentral Assessment)
Son, Seung-Woo (Department of Environmentral Assessment)
Jeon, Hyung-Jin (Department of Land and Water Environment Research, Korea Environment Institute)
Yoon, Jeong-Ho (Department of Land and Water Environment Research, Korea Environment Institute)
Publication Information
Journal of the Korea Academia-Industrial cooperation Society / v.20, no.6, 2019 , pp. 19-25 More about this Journal
Abstract
The CleanSYS(Clean SYStem) is operated to monitor air pollutants emitted from specific industrial complexes in Korea. So the industrial complexes without the system are directly monitored by the control officers. For efficient monitoring, studies using various sensors have been conducted to monitor air pollutants emitted from industrial complex. In this study, hyperspectral sensors were used to model and verify the equations for estimating the concentration of $NO_2$(nitrogen dioxide) in air pollutants emitted. For development of the equations, spectral radiance were observed for $NO_2$ at various concentrations with different SZA(Solar Zenith Angle), VZA(Viewing Zenith Angle), and RAA(Relative Azimuth Angle). From the observed spectral radiance, the calculated value of the difference between the values of the specific wavelengths was taken as an absorption depth, and the equations were developed using the relationship between the depth and the $NO_2$ concentration. The spectral radiance mixed gas of $NO_2$ and $SO_2$(sulfur dioxide) was used to verify the equations. As a result, the $R^2$(coefficient of determination) and RMSE(Root Mean Square Error) were different from 0.71~0.88 and 72~23 ppm according to the form of the equation, and $R^2$ of the exponential form was the highest among the equations. Depending on the type of the equations, the accuracy of the estimated concentration with varying concentrations is not constant. However, if the equations are advanced in the future, hyperspectral sensors can be used to monitor the $NO_2$ emitted from the industrial complex.
Keywords
Hyperspectral Sensor; Air Monitoring; Air Pollutants; Nitrogen Dioxide; Concentration Estimation;
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Times Cited By KSCI : 1  (Citation Analysis)
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