P2.22
Neural Network Retrievals of Precipitation and Atmospheric Temperature and Moisture Profiles from ATMS and CRIS
William J. Blackwell, MIT Lincoln Laboratory, Lexington, MA; and F. Chen
In this paper, we present two examples of neural-network-based atmospheric retrieval algorithms being developed for the ATMS and CrIS NPP/NPOESS sensors. First, we consider the retrieval of atmospheric temperature and moisture profiles (quantity as a function of altitude) from hyperspectral radiance measurements in the thermal infrared. A projected principal components (PPC) transform is used to reduce the dimensionality of and optimally extract geophysical information from the spectral radiance data, and a multilayer feed-forward neural network (NN) is subsequently used to estimate the desired geophysical profiles. This algorithm is henceforth referred to as the “PPC/NN” algorithm. The PPC/NN algorithm offers the numerical stability and efficiency of statistical methods without sacrificing the accuracy of physical, model-based methods. Second, we consider the retrieval of precipitation rate from passive microwave radiance measurements at frequencies near the oxygen and water vapor resonances at 50-60 GHz and 183.31 GHz, respectively. In this case, the models relating the precipitation rate to the radiance intensities measured by the sensor are extremely complicated and difficult to validate. The use of neural networks to empirically learn the statistical relationship between rain rate and spectral intensity obviates the need for complex and, often, inaccurate models in the retrieval algorithm. We will present simulation studies using ATMS and CrIS for both of these retrieval examples.
Poster Session 2, Applications and Exploitation of NPOESS and GOES-R Data Products II
Wednesday, 17 January 2007, 2:30 PM-4:00 PM, 217D
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