Composite Aerosol Optical Depth Mapping over Northeast Asia from GEO-LEO Satellite Observations

Ahn, Soi; Chung, Sung-Rae; Oh, Hyun-Jong; Chung, Chu-Yong

doi:10.3390/rs13061096

Cited by 4 publications

References 114 publications

(146 reference statements)

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Analysis of urban heat island effect based on remote sensing monitoring of ground objects changed

Li,

Ren,

Wang

2024

Fourth International Conference on Geology, Mapping, and Remote Sensing (ICGMRS 2023)

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Satellite remote sensing has been widely used for urban expansion analysis and land cover change monitoring due to its advantages of large coverage and short revisit cycle. With the rapid development of urban construction, urban heat island effect becomes more obvious. It is of great significance to use remote sensing technology to monitor urban temperature and analyze the internal causes of heat island effect. Zhengzhou was selected as a case study, and uses remote sensing images from March and September 2020-2022 to invert the temperature of this area. After separating the temperature changes caused by normal climate, the influence of land cover type changes on heat island effect is analyzed by interpreting and comparing different land cover types. The results show that land cover type changes have an important impact on urban heat island effect. The distribution of vegetation and water bodies can alleviate the rise of urban surface temperature to some extent, while high-density built-up areas have more significant surface temperature increase. However, through comparative studies of remote sensing images, it is found that light-colored building materials with high reflectivity have obvious improvement on urban heat island effect.

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Analysis of urban heat island effect based on remote sensing monitoring of ground objects changed

Li,

Ren,

Wang

2024

Fourth International Conference on Geology, Mapping, and Remote Sensing (ICGMRS 2023)

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Urban Built Environment Assessment Based on Scene Understanding of High-Resolution Remote Sensing Imagery

et al. 2023

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A high-quality built environment is important for human health and well-being. Assessing the quality of the urban built environment can provide planners and managers with decision-making for urban renewal to improve resident satisfaction. Many studies evaluate the built environment from the perspective of street scenes, but it is difficult for street-view data to cover every area of the built environment and its update frequency is low, which cannot meet the requirement of built-environment assessment under rapid urban development. Earth-observation data have the advantages of wide coverage, high update frequency, and good availability. This paper proposes an intelligent evaluation method for urban built environments based on scene understanding of high-resolution remote-sensing images. It contributes not only the assessment criteria for the built environment in remote-sensing images from the perspective of visual cognition but also an image-caption dataset applicable to urban-built-environment assessment. The results show that the proposed deep-learning-driven method can provide a feasible paradigm for representing high-resolution remote-sensing image scenes and large-scale urban-built-area assessment.

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Spatial–Temporal Fusion of 10-Min Aerosol Optical Depth Products with the GEO–LEO Satellite Joint Observations

et al. 2023

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Geosynchronous equatorial orbit (GEO) satellite-derived AOD possesses huge advantages for monitoring atmospheric aerosol with high frequency; however, the data missing existing in the satellite-derived AOD products dramatically limits this expected advantage due to cloud obscuration and aerosol retrieval algorithm. In recent years, numerous AOD fusion algorithms have been proposed, while these algorithms are mostly developed to blend daily AOD products derived from low Earth orbit (LEO) satellites and generally neglect discrepancies from different categories of products. Therefore, a spatiotemporal fusion framework based on the Bayesian maximum entropy theorem, blending GEO with LEO satellite observations and incorporating data discrepancies (GL-BME), is developed to complementarily recover the Advanced Himawari-8 Imager (AHI) AOD products over East Asia. The results show that GL-BME significantly improves the average spatial completeness of AOD from 20.3% to 67.6% with ensured reliability, and the accuracy of merged AODs nearly maintains that of original AHI AODs. Moreover, a comparison of the monthly aerosol spatial distribution between the merged and original AHI AODs is conducted to evaluate the performance and significance of GL-BME, which indicates that GL-BME could further restore the real atmospheric aerosol situation to a certain extent on the basis of dramatic spatial coverage improvement.

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Composite Aerosol Optical Depth Mapping over Northeast Asia from GEO-LEO Satellite Observations

Cited by 4 publications

References 114 publications

Analysis of urban heat island effect based on remote sensing monitoring of ground objects changed

Analysis of urban heat island effect based on remote sensing monitoring of ground objects changed

Urban Built Environment Assessment Based on Scene Understanding of High-Resolution Remote Sensing Imagery

Spatial–Temporal Fusion of 10-Min Aerosol Optical Depth Products with the GEO–LEO Satellite Joint Observations

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