Publication Abstracts
Stewart 1975
Stewart, R.W., 1975: Numerical Experiments on Long-Range Weather Prediction. Ph.D. thesis. Columbia University.
A method is presented for increasing the length of prediction time for intermediate-range forecasting (7 to 30 days). The method is to use the ensemble average of a set of forecasts generated by random perturbations from an observed initial state. The method is applied specifically to the initial state of 9 December 1972.
The effect of the ensemble averaging on the predictability time is investigated by means of a simulation study utilizing a 3-layer general circulation model.
It is found that the technique of ensemble averaging — using the average of a set of forecasts randomly perturbed around an observed state — can lead to an increased predictability time when compared either to a single forecast made from the observed state, or to climatological means.
Specific results are: (1) the distribution of forecasts made from states which are randomly perturbed is Gaussian, within the limits of the numerical experiment; (2) the 3-layer general circulation model is shown "transitive" behavior for the 30 day period of the forecasts; (3) both "amplitude" (root-mean-square) and "phase" (correlation coefficient) predictability times are increased for the ensemble average forecast when compared to the forecast made from the observed intiial state; a two-day (20%) increase in "amplitude" predictability time is calculated for the ensemble-averaged forecast compared to the forecast from the observed plus "climatology". Surface pressure results showed a 7 day increase in predictability time, i.e., nearly two-fold increase. The phase predictability time for ground temperature for the United States region increased from about 10 days to 17 days; (4) the number of forecasts necessary to constitute a usable ensemble lies between four and eight.
In addition, the procedure of ensemble forecasting was applied to averages over space regions ranging from 4×106 km2 to 107 km2, as well as time averages over periods of 5 days. For forecast periods of 15 to 30 days, a decrease of 1.5°C is found for rms error in the ground temperature averaged over the United States and over 5 day intervals of time, as compared to a single forecast made from the observed state.
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BibTeX Citation
@phdthesis{st05710o, author={Stewart, R. W.}, title={Numerical Experiments on Long-Range Weather Prediction}, year={1975}, school={Columbia University}, address={New York, N.Y.}, }
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RIS Citation
TY - THES ID - st05710o AU - Stewart, R. W. PY - 1975 BT - Numerical Experiments on Long-Range Weather Prediction PB - Columbia University CY - New York, N.Y. ER -
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