TY - GEN
T1 - Combined passive and active microwave retrieval of falling snow during the 2003 Wakasa Bay field experiment
AU - Johnson, Benjamin T.
AU - Skofronick-Jackson, Gail
AU - Petty, Grant W.
PY - 2008
Y1 - 2008
N2 - The present research describes a novel snowfall retrieval algorithm using combined radar and radiometer observations of cold-cloud precipitation. The algorithm retrieves a 1-D vertical distribution of precipitation rate, particle size, particle density, and cloud liquid water content using aircraftor satellite-based co-located dual-wavelength radar and passive microwave radiometer observations. The 2003 Wakasa Bay field experiment over the Sea of Japan provided high-resolution observations of snowfall using aircraft-based instruments compatible with the present technique. The dual-frequency APR-2 radar operated at 13.4 and 35.6 GHz, while the co-located the MIR radiometer made cross-track observed brightness temperatures at 89, 150, 220, 183.3±1, 183.3±3, 183.3±7, 220 and 340 GHz. The techniques described here are being developed with an eye toward the upcoming Global Precipitation Measurement Mission (GPM). Parameterizations based on these retrievals are already being used to identify and communicate the key characteristics of cold-cloud precipitation to the larger remote sensing and climate modeling community.
AB - The present research describes a novel snowfall retrieval algorithm using combined radar and radiometer observations of cold-cloud precipitation. The algorithm retrieves a 1-D vertical distribution of precipitation rate, particle size, particle density, and cloud liquid water content using aircraftor satellite-based co-located dual-wavelength radar and passive microwave radiometer observations. The 2003 Wakasa Bay field experiment over the Sea of Japan provided high-resolution observations of snowfall using aircraft-based instruments compatible with the present technique. The dual-frequency APR-2 radar operated at 13.4 and 35.6 GHz, while the co-located the MIR radiometer made cross-track observed brightness temperatures at 89, 150, 220, 183.3±1, 183.3±3, 183.3±7, 220 and 340 GHz. The techniques described here are being developed with an eye toward the upcoming Global Precipitation Measurement Mission (GPM). Parameterizations based on these retrievals are already being used to identify and communicate the key characteristics of cold-cloud precipitation to the larger remote sensing and climate modeling community.
KW - Combined
KW - Dual-frequency
KW - Dual-wavelength
KW - GPM
KW - Passive microwave
KW - Precipitation
KW - Radar
KW - Snow
KW - Wakasa Bay
UR - https://www.scopus.com/pages/publications/51849088571
U2 - 10.1109/MICRAD.2008.4579498
DO - 10.1109/MICRAD.2008.4579498
M3 - Conference contribution
AN - SCOPUS:51849088571
SN - 9781424419876
T3 - 2008 Microwave Radiometry and Remote Sensing of the Environment - 10th Specialist Meeting, Proceedings, MICRORAD
BT - 2008 Microwave Radiometry and Remote Sensing of the Environment - 10th Specialist Meeting, Proceedings, MICRORAD
T2 - 2008 Microwave Radiometry and Remote Sensing of the Environment - 10th Specialist Meeting, MICRORAD
Y2 - 11 March 2008 through 14 March 2008
ER -