DocumentCode
3060341
Title
Infrared geostationary satellite precipitation retrievals trained with AMSU MIT millimeter-wave precipitation retrieval products
Author
Surussavadee, C. ; Songsom, Veeranan
Author_Institution
Andaman Environ. & Natural Disaster Res. Center, Prince of Songkla Univ., Phuket, Thailand
fYear
2013
fDate
21-26 July 2013
Firstpage
2226
Lastpage
2229
Abstract
This paper develops a precipitation retrieval algorithm for the Japanese Advanced Meteorological Imager (JAMI) aboard the Multi-functional Transport Satellites (MTSAT). The JAMI PSU Precipitation retrieval algorithm version 1 (JPP-1) employs neural networks trained and evaluated separately for land and sea using the AMSU MIT Precipitation retrieval (AMP) products retrieved using observations from the passive millimeter-wave spectrometer Advanced Microwave Sounding Unit (AMSU) aboard the U.S. National Oceanic and Atmospheric Administration (NOAA)-18 satellite. Inputs to neural networks include all JAMI infrared channels. Results show that JPP-1 surface precipitation rate retrievals are useful for rates higher than 2 and 1 mm/h for land and sea, respectively, and have good accuracy for rates higher than 4 mm/h for both land and sea. Retrievals for both land and sea are overestimated for rates below 4 mm/h and are underestimated otherwise. Correlation coefficients between AMP surface precipitation rates and JPP-1 retrievals are 0.64 and 0.70 for land and sea, respectively. Main retrieval errors include underestimation for high surface precipitation rates and false alarms due to the inability of JAMI to penetrate clouds.
Keywords
atmospheric precipitation; clouds; neural nets; remote sensing; spectrometers; AMP products; AMP surface precipitation rates; AMSU MIT millimeter-wave precipitation retrieval products; JAMI; JAMI PSU precipitation retrieval algorithm version 1; JAMI cloud penetration; JAMI infrared channels; JPP-1 surface precipitation rate retrievals; Japanese advanced meteorological imager; MTSAT; US NOAA-18 satellite; US National Oceanic and Atmospheric Administration-18 satellite; advanced microwave sounding unit; correlation coefficients; false alarm underestimation; high surface precipitation rate underestimation; infrared geostationary satellite precipitation retrievals; land retrieval; main retrieval errors; multifunctional transport satellites; neural networks; passive millimeter-wave spectrometer observations; precipitation retrieval algorithm; rate overestimation; rate underestimation; sea retrieval; Clouds; Land surface; Millimeter wave technology; Ocean temperature; Satellites; Sea surface; Surface morphology; AMSU MIT Precipitation retrieval algorithm (AMP); Advanced Microwave Sounding Unit (AMSU); Japanese Advanced Meteorological Imager (JAMI); Multi-functional Transport Satellites (MTSAT); precipitation; precipitation retrieval algorithm; satellite;
fLanguage
English
Publisher
ieee
Conference_Titel
Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International
Conference_Location
Melbourne, VIC
ISSN
2153-6996
Print_ISBN
978-1-4799-1114-1
Type
conf
DOI
10.1109/IGARSS.2013.6723259
Filename
6723259
Link To Document