Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas

Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas

Aerosol optical depth (AOD) can be retrieved accurately with sequential ground-based measurements of direct and diffuse solar radiance. However, spatial coverage and location frequency cause certain limitations. Hence, satellite image data are a proper tool for obtaining aerosol optical depth produc...

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Main Authors: Le Thi Le, Hang Thi Thuy Hang, Cuong Xuan Cao, Nghia Viet Nguyen, Long Quoc Nguyen, Ha Thi Thu Le, Lan Thi Pham, Canh Van Le, Lin Tang-Huang
Format: Article
Language:English
Published: Croatian Cartographic Society 2019-10-01
Series:Kartografija i Geoinformacije
Subjects:
aerosol optical depth
aerosol remote sensing
taipei
taiwan
Online Access:http://kig.kartografija.hr/index.php/kig/article/view/870
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spelling doaj-1da8f37635a446dc9b456c801f33ccb02020-11-25T02:04:42ZengCroatian Cartographic SocietyKartografija i Geoinformacije1333-896X1848-07132019-10-011832417787Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural AreasLe Thi Le0Hang Thi Thuy Hang1Cuong Xuan Cao2Nghia Viet Nguyen3Long Quoc Nguyen4Ha Thi Thu Le5Lan Thi Pham6Canh Van Le7Lin Tang-Huang8Thanh Hoa University of Culture, Sport and TourismVietnam Institute of Geodesy and CartographyHanoi University of Mining and GeologyHanoi University of Mining and GeologyHanoi University of Mining and GeologyHanoi University of Mining and GeologyHanoi University of Mining and GeologyHanoi University of Mining and GeologyNational Central University, TaiwanAerosol optical depth (AOD) can be retrieved accurately with sequential ground-based measurements of direct and diffuse solar radiance. However, spatial coverage and location frequency cause certain limitations. Hence, satellite image data are a proper tool for obtaining aerosol optical depth products with more spatial information and patterns of aerosol distribution. Currently, aerosol remote sensing may enhance our understanding of the optimal approach to AOD retrieval over urban and rural areas, and how it differs due to the characteristics of surface reflectivity. The article deals with the concepts of contrast reduction, and dark target approaches are examined using Landsat imaging and the observation of a sun photometer for integrating aerosol optical depth distribution over the city of Taipei in Taiwan. For areas with bright surfaces, such as urban areas, the above concepts were applied using the dispersion coefficient method with a sun photometer, in order to reduce errors considerably in the product. In contrast, a dark target algorithm with a relationship of surface reflectance between the blue (0.49 μm), red (0.66 μm), and infrared (2.1 μm) spectral bands is suitable for moist soils and vegetation areas. The retrieval of AOD spatial distribution is compared with MODIS AOD products and AERONET to verify the accuracy of the results. The RMSE ranged from 0.2 to 0.4, and about 50% of the data were within expected error margins (EE=± (0.05+0.15 AODsunphotometer).http://kig.kartografija.hr/index.php/kig/article/view/870aerosol optical depthaerosol remote sensingtaipeitaiwan
collection DOAJ
language English
format Article
sources DOAJ
author Le Thi Le
Hang Thi Thuy Hang
Cuong Xuan Cao
Nghia Viet Nguyen
Long Quoc Nguyen
Ha Thi Thu Le
Lan Thi Pham
Canh Van Le
Lin Tang-Huang
spellingShingle Le Thi Le
Hang Thi Thuy Hang
Cuong Xuan Cao
Nghia Viet Nguyen
Long Quoc Nguyen
Ha Thi Thu Le
Lan Thi Pham
Canh Van Le
Lin Tang-Huang
Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
Kartografija i Geoinformacije
aerosol optical depth
aerosol remote sensing
taipei
taiwan
author_facet Le Thi Le
Hang Thi Thuy Hang
Cuong Xuan Cao
Nghia Viet Nguyen
Long Quoc Nguyen
Ha Thi Thu Le
Lan Thi Pham
Canh Van Le
Lin Tang-Huang
author_sort Le Thi Le
title Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
title_short Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
title_full Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
title_fullStr Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
title_full_unstemmed Retrieval of Aerosol Optical Depth Using Satellite Data Associated with Ground-based Observations over Urban and Rural Areas
title_sort retrieval of aerosol optical depth using satellite data associated with ground-based observations over urban and rural areas
publisher Croatian Cartographic Society
series Kartografija i Geoinformacije
issn 1333-896X
1848-0713
publishDate 2019-10-01
description Aerosol optical depth (AOD) can be retrieved accurately with sequential ground-based measurements of direct and diffuse solar radiance. However, spatial coverage and location frequency cause certain limitations. Hence, satellite image data are a proper tool for obtaining aerosol optical depth products with more spatial information and patterns of aerosol distribution. Currently, aerosol remote sensing may enhance our understanding of the optimal approach to AOD retrieval over urban and rural areas, and how it differs due to the characteristics of surface reflectivity. The article deals with the concepts of contrast reduction, and dark target approaches are examined using Landsat imaging and the observation of a sun photometer for integrating aerosol optical depth distribution over the city of Taipei in Taiwan. For areas with bright surfaces, such as urban areas, the above concepts were applied using the dispersion coefficient method with a sun photometer, in order to reduce errors considerably in the product. In contrast, a dark target algorithm with a relationship of surface reflectance between the blue (0.49 μm), red (0.66 μm), and infrared (2.1 μm) spectral bands is suitable for moist soils and vegetation areas. The retrieval of AOD spatial distribution is compared with MODIS AOD products and AERONET to verify the accuracy of the results. The RMSE ranged from 0.2 to 0.4, and about 50% of the data were within expected error margins (EE=± (0.05+0.15 AODsunphotometer).
topic aerosol optical depth
aerosol remote sensing
taipei
taiwan
url http://kig.kartografija.hr/index.php/kig/article/view/870
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