Global Estimation of Precipitation Using Opaque Microwave Bands
This thesis describes the use of opaque microwave bands for global estimation of precipitation rate. An algorithm was developed for estimating instantaneous precipitation rate for the Advanced Microwave Sounding Unit (AMSU) on the NOAA-15, NOAA-16, and NOAA-17 satellites, and the Advanced Microwave...
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ftmit:oai:dspace.mit.edu:1721.1/5415 2023-06-11T04:09:21+02:00 Global Estimation of Precipitation Using Opaque Microwave Bands Chen, Frederick Wey-Min 2004-06-16T19:17:52Z 3591649 bytes application/pdf http://hdl.handle.net/1721.1/5415 en eng Technical report (Massachusetts Institute of Technology. Research Laboratory of Electronics);702 http://hdl.handle.net/1721.1/5415 microwave algorithm microwave sounding radiometer hybrid Technical Report 2004 ftmit 2023-05-29T08:43:26Z This thesis describes the use of opaque microwave bands for global estimation of precipitation rate. An algorithm was developed for estimating instantaneous precipitation rate for the Advanced Microwave Sounding Unit (AMSU) on the NOAA-15, NOAA-16, and NOAA-17 satellites, and the Advanced Microwave Sounding Unit and Humidity Sounder for Brazil (AMSU/HSB) aboard the NASA Aqua satellite. The algorithm relies primarily on channels in the opaque 54-GHz oxygen and 183-GHz water vapor resonance bands. Many methods for estimating precipitation rate using surface-sensitive microwave window channels have been developed by others. The algorithm involves a set of signal processing components whose outputs are fed into a neural net to produce a rain rate estimate for each 15-km spot. The signal processing components utilize techniques such as principal component analysis for characterizing groups of channels, spatial filtering for cloud-clearing brightness temperature images, and data fusion for sharpening images in order to optimize sensing of small precipitation cells. An effort has been made to make the algorithm as blind to surface variations as possible. The algorithm was trained using data over the eastern U.S. from the NEXRAD ground-based radar network, and was validated through numerical comparisons with NEXRAD data and visual examination of the morphology of precipitation from over the eastern U.S. and around the world. It performed reasonably well over the eastern U.S. and showed potential for detecting and estimating falling snow. However, it tended to overestimate rain rate in summer Arctic climates. Adjustments to the algorithm were made by developing a neural-net-based estimator for estimating a multiplicative correction factor based on data from the Advanced Microwave Sounding Radiometer for the Earth Observing System (AMSR-E) on the Aqua satellite. The correction improved estimates in the Arctic to more reasonable levels. The final estimator was a hybrid of the NEXRAD-trained estimator and the ... Report Arctic DSpace@MIT (Massachusetts Institute of Technology) Arctic |
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Open Polar |
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DSpace@MIT (Massachusetts Institute of Technology) |
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ftmit |
| language |
English |
| topic |
microwave algorithm microwave sounding radiometer hybrid |
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microwave algorithm microwave sounding radiometer hybrid Chen, Frederick Wey-Min Global Estimation of Precipitation Using Opaque Microwave Bands |
| topic_facet |
microwave algorithm microwave sounding radiometer hybrid |
| description |
This thesis describes the use of opaque microwave bands for global estimation of precipitation rate. An algorithm was developed for estimating instantaneous precipitation rate for the Advanced Microwave Sounding Unit (AMSU) on the NOAA-15, NOAA-16, and NOAA-17 satellites, and the Advanced Microwave Sounding Unit and Humidity Sounder for Brazil (AMSU/HSB) aboard the NASA Aqua satellite. The algorithm relies primarily on channels in the opaque 54-GHz oxygen and 183-GHz water vapor resonance bands. Many methods for estimating precipitation rate using surface-sensitive microwave window channels have been developed by others. The algorithm involves a set of signal processing components whose outputs are fed into a neural net to produce a rain rate estimate for each 15-km spot. The signal processing components utilize techniques such as principal component analysis for characterizing groups of channels, spatial filtering for cloud-clearing brightness temperature images, and data fusion for sharpening images in order to optimize sensing of small precipitation cells. An effort has been made to make the algorithm as blind to surface variations as possible. The algorithm was trained using data over the eastern U.S. from the NEXRAD ground-based radar network, and was validated through numerical comparisons with NEXRAD data and visual examination of the morphology of precipitation from over the eastern U.S. and around the world. It performed reasonably well over the eastern U.S. and showed potential for detecting and estimating falling snow. However, it tended to overestimate rain rate in summer Arctic climates. Adjustments to the algorithm were made by developing a neural-net-based estimator for estimating a multiplicative correction factor based on data from the Advanced Microwave Sounding Radiometer for the Earth Observing System (AMSR-E) on the Aqua satellite. The correction improved estimates in the Arctic to more reasonable levels. The final estimator was a hybrid of the NEXRAD-trained estimator and the ... |
| format |
Report |
| author |
Chen, Frederick Wey-Min |
| author_facet |
Chen, Frederick Wey-Min |
| author_sort |
Chen, Frederick Wey-Min |
| title |
Global Estimation of Precipitation Using Opaque Microwave Bands |
| title_short |
Global Estimation of Precipitation Using Opaque Microwave Bands |
| title_full |
Global Estimation of Precipitation Using Opaque Microwave Bands |
| title_fullStr |
Global Estimation of Precipitation Using Opaque Microwave Bands |
| title_full_unstemmed |
Global Estimation of Precipitation Using Opaque Microwave Bands |
| title_sort |
global estimation of precipitation using opaque microwave bands |
| publishDate |
2004 |
| url |
http://hdl.handle.net/1721.1/5415 |
| geographic |
Arctic |
| geographic_facet |
Arctic |
| genre |
Arctic |
| genre_facet |
Arctic |
| op_relation |
Technical report (Massachusetts Institute of Technology. Research Laboratory of Electronics);702 http://hdl.handle.net/1721.1/5415 |
| _version_ |
1768383153813061632 |