Much progress has been made this last year in realizing the potential of the whole sky imager (WSI). Two imagers are deployed [at the Southern Great Plains (SGP) site and the Surface Heat Budget of the Arctic Ocean (SHEBA)], two are being prepared for deployment in the Tropical Western Pacific (TWP), and more are in production. Data products now include daytime thick cloud fraction and calibrated radiance. Night cloud fraction and daytime thin cloud fraction retrievals are in development
A very short term solar power forecasting technology which uses ground-based visible wavelength imag...
Ground observation of cloud is a primary part of real time monitoring local weather. Visual observat...
This work proposes estimating sky radiance distribution curves between 350-2500nm from images captur...
Much progress has been made this last year in realizing the potential of the Whole sky imager (WSI)....
A family of fully automated digital Whole Sky Imagers (WSIs) has been developed at the Marine Physic...
The Whole Sky Imagers (WSI) is a ground-based, skyward-angled camera that captures images, providing...
Automatic cloud documentation from the ground is one of the basic tools to set up cloud climatologie...
Images captured using ground-based Whole Sky Imagers (WSIs) are utilized in order to supplement info...
Cloud imaging using ground-based whole sky imagers is essential for a fine-grained understanding of ...
Cloud imaging using ground-based whole sky imagers is essential for a fine-grained understanding of ...
The aim of this project is to configure and produce whole-sky imagers based on the WAHRSIS 6 as wel...
Increasing photovoltaic (PV) generation in the world’s power grid necessitates accurate solar irradi...
With the ubiquity of powerful digital cameras, there has been a paradigm shift in understanding and ...
Ground-based whole sky imagers are popular for monitoring cloud formations, which is necessary for v...
To facilitate the development of solar power forecasting algorithms based on ground-based visible wa...
A very short term solar power forecasting technology which uses ground-based visible wavelength imag...
Ground observation of cloud is a primary part of real time monitoring local weather. Visual observat...
This work proposes estimating sky radiance distribution curves between 350-2500nm from images captur...
Much progress has been made this last year in realizing the potential of the Whole sky imager (WSI)....
A family of fully automated digital Whole Sky Imagers (WSIs) has been developed at the Marine Physic...
The Whole Sky Imagers (WSI) is a ground-based, skyward-angled camera that captures images, providing...
Automatic cloud documentation from the ground is one of the basic tools to set up cloud climatologie...
Images captured using ground-based Whole Sky Imagers (WSIs) are utilized in order to supplement info...
Cloud imaging using ground-based whole sky imagers is essential for a fine-grained understanding of ...
Cloud imaging using ground-based whole sky imagers is essential for a fine-grained understanding of ...
The aim of this project is to configure and produce whole-sky imagers based on the WAHRSIS 6 as wel...
Increasing photovoltaic (PV) generation in the world’s power grid necessitates accurate solar irradi...
With the ubiquity of powerful digital cameras, there has been a paradigm shift in understanding and ...
Ground-based whole sky imagers are popular for monitoring cloud formations, which is necessary for v...
To facilitate the development of solar power forecasting algorithms based on ground-based visible wa...
A very short term solar power forecasting technology which uses ground-based visible wavelength imag...
Ground observation of cloud is a primary part of real time monitoring local weather. Visual observat...
This work proposes estimating sky radiance distribution curves between 350-2500nm from images captur...