| Averaging of Meteorological Fields 1997 Edition Contributor(s): Kagan, R. L. (Author), Gandin, Lev S. (Editor), Smith, Thomas M. (Editor) |
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ISBN: 079234801X ISBN-13: 9780792348016 Publisher: Springer OUR PRICE: $161.49 Product Type: Hardcover - Other Formats Published: October 1997 Annotation: This book gives a comprehensive and detailed discussion of statistical averaging of meteorological fields, with assessments of associated errors. A great deal of work on the subject, conducted in the former Soviet Union by the author, is available in English for the first time with this translation. Particularly important is the method of optimal averaging which is developed and examined. This work should be useful to those conducting climate monitoring or climate change studies, which often require spatial averaging to detect slight changes. Studies conducted by the author allow increased accuracy of these estimates compared to many methods commonly used, while showing the confidence that may be assigned to the estimates. |
| Additional Information |
| BISAC Categories: - Science | Earth Sciences - Meteorology & Climatology - Science | Earth Sciences - Geology - Science | Earth Sciences - Oceanography |
| Dewey: 519.5 |
| LCCN: 97031468 |
| Series: Atmospheric and Oceanographic Sciences Library |
| Physical Information: 0.85" H x 6.36" W x 9.62" (1.31 lbs) 281 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Spatial and temporal averaging of observational data is widely used in many problems of meteorology, hydrology and related sciences. Several averaging methods have been proposed by various scientists and are used on a regular basis to obtain data averaged in space orfand in time, to yield data which are less influenced by random factors than initial point data are. The significance of averaging meteorological fields has substantially increased nowadays in connection with the problem of global climate change. However important as such change may be, it is very small as compared with the natural variability of atmospheric fields. An accurate averaging is absolutely necessary in order to discover a small climate change signal on the background of strong natural variability that acts as a random noise in this context. It is highly desirable not only to determine the averaged values themselves, but also to estimate the accuracy with which these values are known. To evaluate the accuracy of averaging is not a simple task mainly because the initial point values are not independent from each other, and interconnections between them substantially influence the averaging accuracy. |