论文信息 - Estimates of Root-Mean-Square Random Error for Finite Samples of Estimated Precipitation

Estimates of Root-Mean-Square Random Error for Finite Samples of Estimated Precipitation

The random errors contained in a finite set E of precipitation estimates result from both finite sampling and measurement‐algorithm effects. The expected root-mean-square random error associated with the estimated average precipitation in E is shown to be sr 5 r[(H 2 p)/pNI]1/2, where ris the space‐time-average precipitation estimate over E, H is a function of the shape of the probability distribution of precipitation (the nondimensional second moment), p is the frequency of nonzero precipitation in E, and NI is the number of independent samples in E. All of these quantities are variables of the space‐time-average dataset. In practice H is nearly constant and close to the value 1.5 over most of the globe. An approximate form of sr is derived that accommodates the limitations of typical monthly datasets, then it is applied to the microwave, infrared, and gauge precipitation monthly datasets from the Global Precipitation Climatology Project. As an aid to visualizing differences in sr for various datasets, a ‘‘quality index’’ is introduced. Calibration in a few locations with dense gauge networks reveals that the approximate form is a reasonable first step in estimating sr.

George J. Huffman | G. Huffman

[1] M. Shafer,et al. The Pacific Rain Gage Rainfall Database , 1995 .

[2] U. Schneider,et al. Global precipitation estimates based on a technique for combining satellite-based estimates, rain gauge analysis, and NWP model precipitation information , 1995 .

[3] G. North,et al. Combining Rain Gages With Satellite Measurements for Optimal Estimates of Area-Time Averaged Rain Rates , 1991 .

[4] Russell L. Martin,et al. Sampling errors for satellite-derived tropical rainfall - Monte Carlo study using a space-time stochastic model , 1990 .

[5] J. Janowiak,et al. The Global Precipitation Climatology Project (GPCP) combined precipitation dataset , 1997 .

[6] C. Daly,et al. A Statistical-Topographic Model for Mapping Climatological Precipitation over Mountainous Terrain , 1994 .

[7] Gerald R. North,et al. Formalism for Comparing Rain Estimation Designs , 1989 .

[8] G. Huffman,et al. Global tropical rain estimates from microwave‐adjusted geosynchronous IR data , 1994 .

[9] Benjamin Kedem,et al. Estimation of mean rain rate: Application to satellite observations , 1990 .