Product Availability: Full mission availability except for spacecraft/instrument outages.
The objective of the algorithm is to determine the presence of surface precipitation, and quantify the intensity, based on CloudSat Proﬁling Radar (CPR) observations. The algorithm makes use of the radar reflectivity near the surface of the earth and an estimate of path integrated attenuation (PIA) determined from the surface reflection characteristics to determine precipitation occurrence (over all surface types) and intensity (over water surfaces).
Changes/Updates in Algorithm Version P_R05 *
This product now primarily focuses on precipitation incidence. A side effect is that some variables have been renamed; Precip_rate becomes Diagnostic_precip_rate, and so on.
The convective and stratiform retrievals have been rebuilt from the ground-up, and now share a largely unified code base. New lookup tables of precipitation rate and path integrated attenuation have been built using Robin Hogan’s Time-Dependent Two-Stream model of multiple scattering (Hogan and Battaglia 2008). Improvements have also been made that should result in better simulation of the CloudSat radar’s antenna beam pattern.
A new method of determining PIA, using local observations of the clear sky surface, is used when available. This significantly reduces uncertainty in PIA, especially over the ocean surface (see Section 2.1.1).
PIA is now reported everywhere it can be calculated, including for non-raining profiles. It is reported (experimentally) over non-water surfaces.
Various bug fixes.
* See the 2C-PRECIP-COLUMN P_R05 Process Description and Interface Control Document (PDICD) for more details.
Process Description and Interface Control Document (PDICD)
No Algorithm Specifications (AIMS) results found. Please reference the Process Description and Interface Control Document (PDICD).