Mikhail A. Popov
Workgroup on Mathematical Modeling of Geo-Systems and Risk Analysis, Department of Heat & Mass Exchange in Geo-Systems, Scientific Centre for Aerospace Research of the Earth, Kiev, Ukraine.

Sergey A. Stankevich
Workgroup on Mathematical Modeling of Geo-Systems and Risk Analysis, Department of Heat & Mass Exchange in Geo-Systems, Scientific Centre for Aerospace Research of the Earth, Kiev, Ukraine.

Yuri V. Kostyuchenko
Workgroup on Mathematical Modeling of Geo-Systems and Risk Analysis, Department of Heat & Mass Exchange in Geo-Systems, Scientific Centre for Aerospace Research of the Earth, Kiev, Ukraine.

Anna A. Kozlova
Workgroup on Mathematical Modeling of Geo-Systems and Risk Analysis, Department of Heat & Mass Exchange in Geo-Systems, Scientific Centre for Aerospace Research of the Earth, Kiev, Ukraine.

DOI https://dx.doi.org/10.33889/IJMEMS.2019.4.2-023

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Abstract

Paper aimed to the description of the methods of analysis and measurements of atmospheric greenhouse gases (GHG), especially, methane concentration using satellite tools for climate change model improvement. The experimental accuracy estimation of narrow-band spectral indices restoration by the wide-band multispectral image is performed. Three methods for narrow-band spectral indices restoration are analyzed. The method on the basis of spectra translation is recommended for practical application.

Keywords- Climate model, Atmosphere remote sensing, Satellite measurement, Methane emission model, Temperature trend, Physiographic region.

Citation

Popov, M. A., Stankevich, S. A., Kostyuchenko, Y. V., & Kozlova, A. A. (2019). Analysis of Local Climate Variations Using Correlation between Satellite Measurements of Methane Emission and Temperature Trends within Physiographic Regions of Ukraine. International Journal of Mathematical, Engineering and Management Sciences, 4(2), 276-288. https://dx.doi.org/10.33889/IJMEMS.2019.4.2-023.