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TRMM Precipitation Radar (PR) Level 3 Monthly 5° x 5° Surface Rainfall (3A26)

Data Access for

3A26: http://disc.sci.gsfc.nasa.gov/data/datapool/TRMM_DP/01_Data_Products/02_Gridded/03_Monthly_Surf_Rain_Total_3A_26/

Contents:

[Skip Contents]
Summary 
TRMM Satellite Operating Altitude Change 
Sponsor and Acknowledgement 
Future Updates 
Data Flow Description 
Data Set Description 
Tools for Visualizing Data
Sample Software
Data Access 
Points of Contact 
References 
 

Summary

This document provides basic information on 3A26, PR Monthly 5° x 5° Surface Rainfall. The primary objective of the 3A26 is to compute the rain rate statistics over 5 degree (latitude) x 5 degree (longitude) x 1 month space-time regions. The output products include the estimated values of the probability distribution function of the space-time rain rates at 4 'levels' (2 km, 4 km, 6 km, and path-averaged) and the mean, standard deviation, and probability of rain derived from these distributions. Three different rain rate estimates are used for the high resolution rain rate inputs to the algorithm: (1) the standard Z-R (or 0th-order estimate having no attenuation correction); (2) the Hitschfeld-Bordan (H-B); and (3) the rain rates taken from 2A25. (Fits based on the high resolution inputs from the surface reference technique are output to the diagnostic file for evaluation).

This algorithm is based on a statistical procedure. Although the radar team believes that a statistical method of this type should be implemented for TRMM, the method is relatively new and the testing has been carried out only on simulated data and on preliminary TRMM data. Caution on the use of the results is well warranted.

TRMM Satellite Operating Altitude Change

The average operating altitude for TRMM was changed from 350 to 403 km during the period of August 7-24, 2001. This orbit boost maneuver extended the mission life significantly. All post-boost data products had been released by the TRMM Science Project, as of early December 2001. All TRMM data products (post- and pre-boost) are available via the TRMM data search-and-order system at http://disc.sci.gsfc.nasa.gov/data/datapool/TRMM_DP/. The time period before August 7, 2001 is referred to as pre-boost, and the time period after August 24, 2001 is referred to as post-boost.

The characteristics of the three rain instruments for pre- and post-boost are shown in following table:

Characteristics of TRMM Instruments
  Swath Width (km) Ground Resolution (km)
Pre-boost Post-boost Pre-boost Post-boost
VIRS 720 833 2.2 2.4
TMI 760 878   4.4*   5.1*
PR 215 247 4.3 5.0
* Ground resolutions of TMI are those at 85.5 GHz (highest resolution).


The pre- and post-boost characteristics of TRMM data are different; their details are listed in the Data Characteristics table for each orbital product. Some caveats associated with post-boost TRMM Precipitation Radar (PR) products have been released by the PR algorithm scientists and are available at ftp://disc2.nascom.nasa.gov/data/TRMM/Documentation/TRMM_Boost_PR_Caveats.html.

For TRMM version 5 products, the post-boost filenames all have a "5A" in the product version part of the name, compared with a "5" in pre-boost filenames. For version 6, the filenames have no differences for pre-boost and post-boost.

Sponsor and Acknowledgement

The distribution of this data set is funded by NASA's Earth Science Enterprise (ESE). The data are not copyrighted; however, we request that when you publish data or results using these data, please acknowledge as follows: The data used in this study were acquired as part of the Tropical Rainfall Measuring Mission (TRMM). The algorithms were developed by the TRMM Science Team. The data were processed by the TRMM Science Data and Information System (TSDIS) and the TRMM Office; they are archived and distributed by the Goddard Distributed Active Archive Center. TRMM is an international project jointly sponsored by the Japan National Space Development Agency (NASDA) and the U.S. National Aeronautics and Space Administration (NASA) Office of Earth Sciences. Please send a copy of your publication to Help Desk, Goddard DAAC, Code 610.2, NASA GSFC, Greenbelt, MD 20771 or email the reference of your publication to help-disc@listserv.gsfc.nasa.gov.

Future Updates

It is expected that some of the TRMM algorithms will be refined or improved as new measurements are gathered and analyzed by the TRMM Science Team. The data products are expected to be periodically reprocessed by TSDIS in order to provide the scientific and other user communities with the most current and best available rainfall products. The exact reprocessing schedule will be set by a team designated by the TRMM Project Scientist. This document will be updated in coordination with the TRMM reprocessing schedule and whenever appropriate as determined by the Goddard DAAC Hydrology Data Support Team.

Data Flow Description

The data flow of all products are shown in Satellite Algorithm Flow Diagram.

Data Set Description

Data Characteristics
Temporal Coverage Start Date: 1997-12-08; Stop Date: -
Geographic Coverage Latitude: 40°S - 40°N; Longitude:180°W - 180°E
Temporal Resolution Monthly
Horizontal Resolution 5° x 5°; nlat = 16, nlon = 72
Average File Size Compressed: 5.6 KB; Original: ~16.0 KB
File Type HDF


Data Format Structure

The following table summarizes the contents and structure of the PR monthly surface rainfall (3A26) product. Further information can be found in Volume 4 of the "File Specifications for TSDIS Products - Level 2 and Level 3" .

Data Format Structure for 3A26, PR Monthly Surface Rainfall
Name Type Record
Size
(byte)		 Dim Size
(# of Records)		 Scaled
by		 Range Unit Description
ECS Core Metadata Char Attribute 10,000  - - - - ECS Core Metadata
PS Metadata Char Attribute 10,000  - - - - Product Specific Metadata
GridStructure Char Attribute 5,000  - - - - GridStructure gives the specification of the geometry of the grids.
Total Counts Integer SDS nlat*nlon - 0 ~ 2,147,483,647 - Total number of counts (measurements) per month at each 5° x 5° boxes.
Rain Counts Integer SDS nlat*nlon*nh3 - 0 ~ 2,147,483,647 - Total number of rain counts (measurements) per month at each 5° x 5° boxes. This is computed at 2km, 4km, 6km, and for the path-average.
Zero Order pDf Integer SDS nlat*nlon*ncat3*nh3*nthrsh - 1 ~ 2,147,483,647 - Probability distribution function (cumulative) in counts of the zeroth order rain rate estimate at each 5° x 5° boxes. The pDf is computed at 2km, 4km, 6km, and for the path-average.
HB pDf Integer SDS nlat*nlon*ncat3*nh3*nthrsh - 1 ~ 2,147,483,647 - Probability distribution function (cumulative) in counts of the Hitschfield-Bordan (HB) rain rate estimate at each 5° x 5° boxes. The pDf is computed at 2km, 4km, 6km, and for the path-average.
pDf2A25 Integer SDS nlat*nlon*ncat3*nh3*nthrsh - 1 ~ 2,147,483,647 - Probability distribution function (cumulative) in counts of the Surface Reference Technique (SRT) rain rate estimate at each 5° x 5° boxes. The pDf is computed at 2km, 4km, 6km, and for the path-average.
Zero Order Fit Float SDS nlat*nlon*nh3*3*nthrsh - TBD - The mean, variance, and probability of rain parameters for the log-normal model obtained from the zeroth order pDf. Fitting parameters are given at 2km, 4km, 6km, and for the path-average. In addition, 5 thresholds are used.
HB Fit Float SDS nlat*nlon*nh3*3*nthrsh - TBD - The 3 fitting parameters for the log-normal model obtained from the HB pDf. Fitting parameters are given at 2km, 4km, 6km, and for the path-average. In addition, 5 thresholds are used.
fit2A25 Float SDS nlat*nlon*nh3*3*nthrsh - TBD - The 3 fitting parameters for the log-normal model obtained from the SRT pDf. Fitting parameters are given at 2km, 4km, 6km, and for the path-average.
Reliability 0th Order Fit Float SDS nlat*nlon*nh3*nthrsh - TBD TBD Reliability parameter for the 0th order fit.
Reliability HB Fit Float SDS nlat*nlon*nh3*nthrsh - TBD TBD Reliability parameter for the HB fit.
Reliability 2A25 Fit Float SDS nlat*nlon*nh3*nthrsh - TBD TBD Reliability parameter for the SRT fit.
rainMeanTH Float SDS nlat*nlon*nh3 - 0.0 ~ 3000.0 mm h-1 The mean monthly unconditioned rain rate (mm/h) as determined from the threshold method (in particular, it is determined from the fitting parameters fro the '-th-order method' using a single 'Q' threshold for each height level).
Note:   Missing data are given the value of -999, and -777 indicates that too few data points were available to make the fit.

Parameters used in above table:

Name Value Definition
nlat 16  the number of 5° grid intervals of latitude from 40° S to 40° N
nlon 72  the number of 5° grid intervals of longitude from 180° W to 180° E
nh3 the number of fixed heights above the earth ellipsoid, at 2, 4, 6 km plus one for path-average, in that order
ncat3 25  the number of categories for probability distribution functions. Rain rate thresholds (mm/hr) are: 12., 14.,..., 60.
nthrsh the number of thresholds used for probability distribution functions.
Q-thresholds for Zero order:    0.1, 0.2, 0.3, 0.5, 0.75, 50.
Q-thresholds for HB:     0.1, 0.2, 0.3, 0.5, 0.75, 0.9999.
pia-thresholds for SRT:     1.5, 1., 0.8, 0.6, 0.4, 0.1.

Tools for Visualizing Data

The Goddard DAAC provides the following tools to help users visualize data in the Hierarchical Data Format (HDF).

TSDIS Orbit Viewer

The TSDIS Orbit Viewer is a menu-driven graphical interface for dynamically generating images from TRMM HDF files. The viewer can display, at the full instrument resolution, TRMM satellite, Ground Validation, browse, and Coincidence Subsetted Intermediate (CSI) products, as well as other derived products.

The software runs on Microsoft Windows and UNIX.

The source code and installation instructions for the Orbit Viewer are available from the Goddard DAAC's TRMM ftp site (ftp://disc2.nascom.nasa.gov/software/trmm_software/Orbit_Viewer).

Please note: TSDIS can provide technical support for the Orbit Viewer only to certain members of the TRMM Science Team. Other users should contact the DAAC's Hydrology Data Support Team (hydrology-disc@listserv.gsfc.nasa.gov).

EOSView

EOSView is a standalone X-based data visualization tool that displays HDF files. It can be used to view data ordered from the Goddard DAAC. In addition, it provides a secondary mechanism for previewing browse files before ordering data. (The primary mechanism is the preview feature of the TRMM Data Search and Order System.) EOSView serves as a file verification tool. The contents of HDF files are displayed and individual objects can be selected for display. Displayable objects include raster images, data sets in tables, pseudocolor images of data sets, attributes, and annotations. Simple animations can be performed for a file with multiple raster images.

A unique interface has been provided for handling HDF-EOS data structures. The Swath/Point/Grid interface uses only HDF-EOS library calls. EOSView users will not see the underlying HDF structures but will be prompted for what parts of the HDF-EOS object they wish to view. The EOSView requires at least 4 megabytes of memory and a larger than 24-bit graphics board.


Download Instructions for the Software:

These tools can be downloaded via anonymous ftp using a command line ftp client, available on all Unix machines.

The source code, installation instructions, and documentation for EOSView and Orbit Viewer are available from the Goddard DAAC's TRMM ftp site (ftp://disc2.nascom.nasa.gov/software/trmm_software).

The following files should be downloaded for EOSView:

  • EOSView (executable)
  • eosview.csc (help)
  • eosview.uid (user interface description file)
  • eosview.dat (IDL commands file)


How to start EOSView:

Start EOSView by typing 'EOSView' at the command prompt. The current working directory must contain the four EOSView files.

Sample Software

TRMM HDF Data File Read Software

The Goddard DAAC Hydrology Team has developed the TRMM HDF Data File Read Software, first released in February 1999. The software reads TRMM HDF data files and writes out to flat binary files. The software has been tested with most of the TRMM standard products, as well as with some derived subset products. Both C and Fortran versions are available from ftp://disc2.nascom.nasa.gov/software/trmm_software/Read_HDF/.

TSDIS Toolkit

TSDIS developed the TSDIS Science Algorithm Toolkit to assist the TRMM Science Team's algorithm developers. The toolkit provides a library of commonly used routines, constants, and macros. It also allows seamless integration of TRMM algorithms into the TSDIS environment.

The toolkit provides routines for reading and writing data to and from the HDF files; routines are provided for Levels 1-3 products and for both satellite and GV. Each of the routines in the toolkit are callable in either C or Fortran. The toolkit also includes routines for reading land/sea data and topographical data.

Data Access Information

The Goddard DAAC maintains archives of all TRMM data products and many other Hydrology data sets. The archived data can be ordered via FTP network transfer.

Data Volume Limits By Media
CDR FTP-Pull
Min. Max. Min. Max. Min. Max. Min. Max.
0 GB 3.17 GB 0 GB 2 GB 1 GB 50 GB 1 GB 50 GB
TRMM 3A26 can be accessed and ordered from the Goddard DAAC's TRMM Data Search and Order System at http://disc.sci.gsfc.nasa.gov/data/datapool/TRMM_DP/01_Data_Products/02_Gridded/03_Monthly_Surf_Rain_Total_3A_26/ .

Points of Contact

For information about or assistance in using any Goddard DAAC data, contact the DAAC Help Desk at:

GES Distributed Active Archive Center (DAAC)
Code 610.2
NASA Goddard Space Flight Center
Greenbelt, Maryland 20771

Email: help-disc@listserv.gsfc.nasa.gov.
301-614-5224 (voice)
301-614-5268 (fax)

References

Tropical Rainfall Measuring Mission Science Data and Information System (TSDIS) Interface Control Specification Between the TSDIS and the TSDIS Science User (TSU)
Volume 3: File Specifications for TRMM Products - Level 1.
Volume 4: File Specifications for TRMM Products - Level 2 and Level 3.

Appendix

 
TRMM Frequency Analysis Result*
(Number of visits for a 30-day period)
Radar Site Latitude (°) PR (~215 km) VIRS (~720 km) TMI (~760 km)
Kwajalein Atoll 8.72 9 29 31
Darwin, Australia -12.45 10 31 32
Guam 13.50 9 32 32
Om Koi, Thailand 17.80 9 31 33
Kauai, HI 22.17 13 36 38
Sao Paolo, Brazil -23.58 12 41 42
Taiwan 23.92 11 40 42
Key West, FL 24.67 13 41 42
Miami, FL 25.75 13 45 45
Brownsville, TX 25.97 13 43 47
Corpus Christi, TX 27.85 15 49 51
Tampa, FL 28.03 13 51 52
Melbourne, FL 28.10 15 49 53
San Antonio, TX 29.53 16 57 59
Jacksonville, FL 30.33 19 63 65
Texas A&M, TX 30.58 18 67 68
Jerusalem, Israel 31.87 20 92 102
PR:      Precipitation Radar
VIRS: Visible/InfraRed Scanner
TMI:   TRMM Microwave Imager

* This analysis result was derived based on TRMM pre-boost orbital information.
The revisit frequency should be slightly higher after TRMM boost (August 24, 2001).

If you have questions regarding this table, please send email to:
helpdesk@tsdis02.nascom.nasa.gov.


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  • Last updated: April 10, 2008 17:53:24 GMT