Title :
A spatio-temporal interpolation approach for the FTS SWIR product of XCO2 data from GOSAT
Author :
Zhaocheng Zeng ; Liping Lei ; Shanshan Hou ; Liwei Li
Abstract :
The spatial distribution of carbon dioxide(CO2) column abundance is of importance in analyzing the change of the greenhouse gas. A spatio-temporal interpolation method is proposed in this paper, by analyzing the seasonal change characteristics of CO2 concentration, to generate the spatial distribution of CO2 column abundance based on the GOSAT Level 2 XCO2 data. The variograms of the CO2 data are analyzed to generate the spatio-temporal model. Cross-validation and the comparison between the predicted value and Waliguang ground observation data are implemented to validate the interpolation method. According to the applied case in China, the spatio-temporal interpolation method generates a better result than the GOSAT Level 3 product, which uses the spatial-only Kriging interpolation algorithm.
Keywords :
atmospheric composition; atmospheric techniques; interpolation; China; FTS SWIR product; GOSAT Level 2 XCO2 data; GOSAT Level 3 product; Waliguang ground observation data; carbon dioxide column abundance; cross-validation; greenhouse gas; seasonal change; spatial distribution; spatial-only Kriging interpolation algorithm; spatiotemporal interpolation method; variograms; Distribution functions; Equations; Global warming; Graphical models; Interpolation; Lattices; Mathematical model; GOSAT; carbon dioxide; spatio-temporal interpolation;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International
Conference_Location :
Munich
Print_ISBN :
978-1-4673-1160-1
Electronic_ISBN :
2153-6996
DOI :
10.1109/IGARSS.2012.6351427
