Add to ORKGIn our first paper (Quartly et al. 2001) we discussed the importance of measuring rainfall at sea, and the different in situ techniques available. Here we examine the various satellite-based remote-sensing techniques, since only such systems can provide near-global measurements of rain on a frequent basis. The various techniques span the electromagnetic spectrum from microwave to infra-red and visible, an
A new method for the physical retrieval of rain rates from satellite microwave radiometers is presen...
As mesoscale models improve, they require input data with higher spatial resolution, including rainf...
Multi-frequency measurements of underwater noise offer the possibility of estimating environmental p...
It is argued that for many regions of the earth, ground based remote sensing techniques for rainfall...
Global rainfall over land and ocean is estimated using measurements of upwelling microwaves by a sat...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
Currently, rainfall retrieval over ocean from passive microwave satellite observations represents th...
WindSat is a high precision, conical scanning microwave radiometer that was launched in January 2003...
A discussion of remote sensing technology and how it can be used to collect information about the Ea...
The objective of this paper is to investigate how spaceborne remote sensors, and their derived produ...
The retrieval of rainfall intensity from radiances measured by spaceborne microwave radiometers can ...
Rainfall is an important climatic variable. Extremes in rainfall accumulations over land - either fl...
An algorithm is presented for the detection of surface rainfall using passive microwave measurements...
Precipitation is a well-recognized pillar in global water and energy balances. An accurate and timel...
Earthlings like to measure everything (especially now that we are undergoing the era of big-data rev...
A new method for the physical retrieval of rain rates from satellite microwave radiometers is presen...
As mesoscale models improve, they require input data with higher spatial resolution, including rainf...
Multi-frequency measurements of underwater noise offer the possibility of estimating environmental p...
It is argued that for many regions of the earth, ground based remote sensing techniques for rainfall...
Global rainfall over land and ocean is estimated using measurements of upwelling microwaves by a sat...
Satellites play a major role in the determination of the rainfall at sea. Researchers at Southampton...
Currently, rainfall retrieval over ocean from passive microwave satellite observations represents th...
WindSat is a high precision, conical scanning microwave radiometer that was launched in January 2003...
A discussion of remote sensing technology and how it can be used to collect information about the Ea...
The objective of this paper is to investigate how spaceborne remote sensors, and their derived produ...
The retrieval of rainfall intensity from radiances measured by spaceborne microwave radiometers can ...
Rainfall is an important climatic variable. Extremes in rainfall accumulations over land - either fl...
An algorithm is presented for the detection of surface rainfall using passive microwave measurements...
Precipitation is a well-recognized pillar in global water and energy balances. An accurate and timel...
Earthlings like to measure everything (especially now that we are undergoing the era of big-data rev...
A new method for the physical retrieval of rain rates from satellite microwave radiometers is presen...
As mesoscale models improve, they require input data with higher spatial resolution, including rainf...
Multi-frequency measurements of underwater noise offer the possibility of estimating environmental p...