The effective identification of clouds and monitoring of their evolution are important toward more accurate quantitative precipitation estimation and forecast. In this study, a new gradient-based cloud-image segmentation algorithm is developed using image processing techniques. This method integrates morphological image gradient magnitudes to separate cloud systems and patches boundaries. A varying scale kernel is implemented to reduce the sensitivity of image segmentation to noise and to capture objects with various finenesses of the edges in remote sensing images. The proposed method is flexible and extendable from single to multispectral imagery. Case studies were carried out to validate the algorithm by applying the proposed segmentatio...
The satellites of the METEOSAT series have continuously measured the state of the atmosphere as well...
Visible and infrared data obtained from instruments onboard geostationary satellites have been exten...
This paper outlines the development of a multi-satellite precipitation estimation methodology that d...
The effective identification of clouds and monitoring of their evolution are important toward more a...
Satellite precipitation estimation at high spatial and temporal resolutions is beneficial for resear...
A satellite-based rainfall estimation algorithm, Precipitation Estimation from Remotely Sensed Infor...
Among all natural phenomena, precipitation is the main driver of the hydrological cycle and the chal...
A satellite-based rainfall estimation algorithm, Precipitation Estimation from Remotely Sensed Infor...
Atmospheric processes are manifested through the formation and dispersal of clouds and cloud pattern...
Precipitation estimation from satellite information (VISIBLE , IR, or microwave) is becoming increas...
This analysis performs cloud classification and segmentation using satellite images. Shallow clouds ...
Clouds play a significant role in determining the state of a changing weather. Clouds offer useful i...
The detection and segmentation of clouds in images taken by ground based cameras is of utmost import...
Two previously developed Precipitation Estimation from Remotely Sensed Information using Artificial ...
Cloud is a very common weather phenomenon in the world. In Singapore, it is possible that everyone ...
The satellites of the METEOSAT series have continuously measured the state of the atmosphere as well...
Visible and infrared data obtained from instruments onboard geostationary satellites have been exten...
This paper outlines the development of a multi-satellite precipitation estimation methodology that d...
The effective identification of clouds and monitoring of their evolution are important toward more a...
Satellite precipitation estimation at high spatial and temporal resolutions is beneficial for resear...
A satellite-based rainfall estimation algorithm, Precipitation Estimation from Remotely Sensed Infor...
Among all natural phenomena, precipitation is the main driver of the hydrological cycle and the chal...
A satellite-based rainfall estimation algorithm, Precipitation Estimation from Remotely Sensed Infor...
Atmospheric processes are manifested through the formation and dispersal of clouds and cloud pattern...
Precipitation estimation from satellite information (VISIBLE , IR, or microwave) is becoming increas...
This analysis performs cloud classification and segmentation using satellite images. Shallow clouds ...
Clouds play a significant role in determining the state of a changing weather. Clouds offer useful i...
The detection and segmentation of clouds in images taken by ground based cameras is of utmost import...
Two previously developed Precipitation Estimation from Remotely Sensed Information using Artificial ...
Cloud is a very common weather phenomenon in the world. In Singapore, it is possible that everyone ...
The satellites of the METEOSAT series have continuously measured the state of the atmosphere as well...
Visible and infrared data obtained from instruments onboard geostationary satellites have been exten...
This paper outlines the development of a multi-satellite precipitation estimation methodology that d...