Add to ORKGEnvisat carries a number of sensors able to provide quantitative information on raining clouds: AATSR delivers information on cloud microphysics (particle size, temperature etc.), MWR-2 gives columnar totals for liquid and vapour forms of water, and RA-2 yields rain rate and wind speed. This paper examines the complementarity of these sensors, with a focussed study on significant rain events in the N. Atlantic, covering both coherent large storms and fronts with smaller scale structure. The difference in liquid water estimates from the infra-red and passive systems appears to be related to the temperature and sizes of drops being detected
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
This work quantifies the magnitude, spatial structure, and temporal evolution of the cold wake left ...
Advanced Very High Resolution Radiometer (AVHRR) 4-km data were collected over the northeast Atlanti...
Envisat carries a number of sensors able to provide quantitative information on raining clouds: AATS...
Owing to the highly variable nature of rain both in space and time and the difficulties in obtaining...
There are many different sensors that can be used for studies of clouds or rain. However, it is only...
Case studies of rainfall, derived from Special Sensor Microwave Imager (SSM/I) satellite data during...
Rainfall is an important climatic variable. Extremes in rainfall accumulations over land - either fl...
As the goals for altimetric measurements become ever more precise, there is concern about the reliab...
Liquid water path (LWP) is an important quantity to characterize clouds. Passive microwave satellite...
Meteorological conditions may drive relationships between aerosol and cloud-related properties. It i...
In vast regions of the world, especially over global oceans and sparsely populated land areas, satel...
We examine integrated water vapor fields and rain intensity patterns derived from the Scanning Multi...
The combination of passive and active microwave satellite data products should give new and improved...
Special Issue Remote Sensing of Ocean-Atmosphere Interactions.-- 25 pages, 14 figures, 7 tables, 1 a...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
This work quantifies the magnitude, spatial structure, and temporal evolution of the cold wake left ...
Advanced Very High Resolution Radiometer (AVHRR) 4-km data were collected over the northeast Atlanti...
Envisat carries a number of sensors able to provide quantitative information on raining clouds: AATS...
Owing to the highly variable nature of rain both in space and time and the difficulties in obtaining...
There are many different sensors that can be used for studies of clouds or rain. However, it is only...
Case studies of rainfall, derived from Special Sensor Microwave Imager (SSM/I) satellite data during...
Rainfall is an important climatic variable. Extremes in rainfall accumulations over land - either fl...
As the goals for altimetric measurements become ever more precise, there is concern about the reliab...
Liquid water path (LWP) is an important quantity to characterize clouds. Passive microwave satellite...
Meteorological conditions may drive relationships between aerosol and cloud-related properties. It i...
In vast regions of the world, especially over global oceans and sparsely populated land areas, satel...
We examine integrated water vapor fields and rain intensity patterns derived from the Scanning Multi...
The combination of passive and active microwave satellite data products should give new and improved...
Special Issue Remote Sensing of Ocean-Atmosphere Interactions.-- 25 pages, 14 figures, 7 tables, 1 a...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
This work quantifies the magnitude, spatial structure, and temporal evolution of the cold wake left ...
Advanced Very High Resolution Radiometer (AVHRR) 4-km data were collected over the northeast Atlanti...