AMPR Brightness Temperature CAMEX-1Entry ID: amprtbcx
Abstract: The Advanced Microwave Precipitation Radiometer (AMPR) remotely senses passive
microwave signatures of geophysical parameters from an airborne platform. The
instrument is a low noise system which can provide multifrequency microwave
imagery with high spatial and temporal resolution. AMPR data are collected at
... a combination of frequencies (10.7, 19.35, 37.1, and 85.5 GHz) unique to
current NASA aircraft instrumentation. These frequencies are well suited to
the study of rain cloud systems, but are also useful to studies of various
ocean and land surface processes.
The AMPR was deployed during the Convection and Moisture Experiment (CAMEX-1)
which were NASA funded scientific studies conducted at Wallops Island, VA.
This experiment was designed to study the three-dimensional moisture fields
using satellite, aircraft, and ground-based instrumentation and the
multifrequency radiometric and lightning signatures of tropical convection in
support of the Mission to Planet Earth. The CAMEX-1 experiment took place
between September 8 - October 7, 1993. The geographic domain of the CAMEX-1
region was between 25 degrees North to 45 degrees North latitude and 70 degrees
West to 83 degrees West longitude.
Data Set Citation
Dataset Originator/Creator: Convection and Moisture Experiment (CAMEX-1)
Dataset Title: AMPR Brightness Temperature CAMEX-1Online Resource: http://ghrc.nsstc.nasa.gov/
Start Date: 1993-09-08Stop Date: 1993-10-17
ISO Topic Category
Access Constraints Distribution of this dataset must be approved by the PI.
Distribution Media: FTP
Distribution Format: Binary
Role: DIF AUTHOR
Email: support-ghrc at earthdata.nasa.gov
320 Sparkman Dr.
Province or State: AL
Postal Code: 35805
Email: walt.petersen at nasa.gov
Global Hydrology and Climate Center NASA Marshall Space Flight Center 320 Sparkman Drive
Province or State: AL
Postal Code: 35805
Evans, K.F., Turk, J., Wong, T., and G.L. Stephens (1995), A Bayesein Approach to Microwave Precipitation Profile Retrieval, Journal of Applied Meteorology, 34, 1, 260-279
Griffin, V. L., A. R. Guillory, M. Susko, and J. E. Arnold (March 1994), Operations Summary for the Convection and Moisture Experiment (CAMEX), NASA Technical Memorandum, NASA TM-108445
Hood, R.E., Spencer, R.W., LaFontaine, F.J., and E.A. Smith (6-10 June 1994), Simulation of Future Microwave Satellite Instruments Using High Resolution AMPR Aircraft Data, Seventh Conference on Satellite Meteorology and Oceanography, 160-163, American Meteorological Society, Monterrey, CA, Section 3.10
J., Marzano, Mugnai, A., Smith, E.A., Xiang, X., Turk, J., and J. Vivekanandan,
1994: Active and Passive Microwave Remote Sensing of Precipitating Storms
During CaPE. Part II: Intercomparison of Precipitation Retrievals Over Land
from AMPR Radiometer and CP-2 Radar, Meteorology and Atmospheric Physics,
Special Issue on Retrieval of Hydrological Variables from Space-based Microwave
Instruments, Volume 54, pp.29-51.
Smith, E.A., Xiang, X., Mugnai, A., Hood, R.E., and R.W. Spencer (1994), Behavior of an Inversion-based Precipitation Retrieval Algorithm with High Resolution AMPR Measurements Including a Low Frequency 10.7 GHz Channel, Journal of Atmospheric and Oceanic Technology, 11, 4, 858-873
Spencer, R.W., Hood, R.E., LaFontaine, F.J., Smith, E.A., Platt, R., Galliano J., Griffin, V.L., and Lobl, E. (1994), High-Resolution Imaging of Rain Systems with the Advanced Microwave Precipitation Radiometer, Journal of Atmospheric and Oceanic Technology, 11, 4, 849-857
Turk, J., Vivekanandan, J., Marzano, F.S., Hood, R.E., Spencer, R.W., and F.J.
LaFontaine, 1994: Active and Passive Microwave Remote Sensing of Precipitating
Storms During CaPE. Part I: Advanced Microwave Precipitation Radiometer and
Polarimetric Radar Measurements and Models, Meteorology and Atmospheric
Physics, Special Issue on Retrieval of Hydrological Variables from Space-based
Microwave Instruments, Volume 54, pp.3-27.
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Creation and Review Dates
Last DIF Revision Date: 2011-04-20