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A short term rainfall prediction algorithm. Nazario D. Ramirez and Joan Manuel Castro University of Puerto Rico NOAA Collaborator: Robert J. Kuligowski Other collaborators: Jorge Gonzalez from CUNY Ernesto Rodriguez from NWS The 8 th NOAA-CREST Symposium, New York - PowerPoint PPT Presentation
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An algorithm for projecting radar rainfall rate
A short term rainfall prediction algorithmNazario D. Ramirez and Joan Manuel CastroUniversity of Puerto Rico
NOAA Collaborator: Robert J. Kuligowski
Other collaborators: Jorge Gonzalez from CUNYErnesto Rodriguez from NWS
The 8th NOAA-CREST Symposium, New YorkJune 5-6, 2013Description of the problemDuring the last decades there is a large motivation on determining the spatial variability of rainfall potentials with purpose of coupling a hydrological numerical model to predict flash flood.There are physical and statistical models to predict the spatial rainfall distribution:Mesoscale numerical models:Base on dynamics and thermodynamic, balance of energy and momentum , etc. Statistical methods:Time series models, point processes, neural networks, Kalman Filter , and probability models. Objectives
To develop a new algorithm for predicting one to two hours in advance the spatial distribution of rainfall rate. To use time series models and radar (or satellite) data to predict rainfall rate.Compare the performance of the proposed method with the performance of the WRF model.
General description The introduced algorithm includes four major components:
Detecting rainy cloud cellsEstimating the cloud motion vector Predicting rainy pixels (expected rainfall area)Predicting rainfall rate (at the pixel level)The cloud motion vector
The motion vector for a rainfall event that occurred on October 27, 2007 (at 19:15 and 19:30 UTC)Stages of rainy pixels
Projecting rainy areasClouds are assumed to be rigid objects that move at constant velocity. The cloud motion vector is used to project the rainy pixels.
Potential rainy pixels
Identification of the rainy pixel stages
Training areaPrediction areaLead timeLead time = 30, 60, and 90 mintt -1t-2t+1303030Prediction of rainy pixels (only radar data)
Predicted 60 minObserved90 minRainfall event that occurred on April 17, 2003
Validation of rainy pixels (only radar data)Rainfall prediction model
Neighbor Rainfall Pixels Indicators with one and two lags (106 possible predictors)Spatial and Temporal Predictors (Pixels)
Rainfall prediction model
169Rainfall event that occurred on April 17, 2003
WRF Model Domain to simulate Rainfall Events
Spatial Domains.WRF Domain Configuration
The Global Forecast System (GFS) is run four times a day and produces forecasts up to 16 days in advance, but with decreasing spatial and temporal resolution over timeResults: 24 Hours Cumulated Rainfall
Summary and future workSummaryThe algorithm includes a detection of rainy cloud cell and a cloud motion vector determination. The cloud motion vector is used to predict rainy pixels area. To properly represent the spatial variability the radar covered the radar area was divided into smaller regions and each region is used to develop a single regression model. The predictors are collected from the previous two rainfall images and forward selection algorithm is used to determine the best predictors in each region. The implemented lead time was 30, 60 and 90 minutes.Future workOptimize WRF for the Puerto Rico climate conditions and Use a probabilistic approach to improve the detection of dissipating pixels
Albedo (3.9m) (from GOES)Albedo is estimated as follows:
where:R3.9 is the observed radiance from band 2Re3.9 is the equivalent black body emitted thermal radiation at 3.9 microns for cloud at temperature TS is the solar irradiance of GOES 12 is the albedo at 3.9 microns
19
Albedo from October 27, 2008 (18:35 UTC)19Effective radius and albedo computed from the lookup tables developed by Lindsey and Grass (2008).
Atmospheric instability K-Index K < 15 near 0% Air mass thunderstorm probability15-20 40 >90% Air mass thunderstorm probabilityAcknowledgmentsNational Oceanic and Atmospheric Administration (NOAA)Grant # NA08NW54680043Grant #NA06OAR4810162