1. Successful Hydrologic Forecasting for California Using an Information Theoretic Model
- Author
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R. A. Christensen, O. H. Lindgren, L. L. Rans, and R. F. Eilbert
- Subjects
Variables ,media_common.quotation_subject ,Statistics ,Entropy (information theory) ,Information theory ,Precipitation index ,Minimax ,Model building ,Theoretic model ,Mathematics ,media_common - Abstract
The Entropy Minimax technique from information theory has been applied to long-range, hydrologic forecasting in California. Based on 1852–1977 records, the technique exhibits a limited, but statistically significant, success for predictions one year ahead. A seven-station precipitation index having a 126 water-year base period was chosen as the dependent variable to represent the area's hydrologic status. Random division of the water years into training (model building) and test (reserved for verification only) halves was strictly enforced and a “one-try-only” constraint was placed on predictive runs. Predictions were formulated by an analog selection procedure based on patterns found in a 42-dimensional space of independent variables. These had been extracted by selection, compression and filtering from a data base containing over 100 000 time series. Wet/dry predictions (above or below median), validated on the test water years, demonstrated a 63% accuracy with a 94% confidence that this succes...
- Published
- 1981
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