Ronny Berndtsson
Professor, Dep Director, MECW Dep Scientific Coordinator
Fractal analysis of high-resolution rainfall time series
Author
Summary, in English
Two-year series of 1-min rainfall intensities observed by rain gages at six differrent points are analyzed to obtain information about the fractal behavior of the rainfall distribution in time. First, the rainfall time series are investigated using a monodimensional fractal approach (simple scaling) by calculating the box and correlation dimensions, respectively. The results indicate scaling but with different dimensions for different time aggregation periods. The time periods where changes in dimension occur can be related to average rainfall event durations and average dry period lengths. Also, the dimension is shown to be a decreasing function of the rainfall intensity level. This suggests a multidimensional fractal behavior (multiscaling), and to test this hypothesis, the probability distribution/multiple scaling method was applied to the time series. The results confirm that the investigated rainfall time series display a multidimensional fractal behavior, at least within a significant part of the studied timescales, which indicates that the rainfall process can be described by a multiplicative cascade process. -Authors
Department/s
- Division of Water Resources Engineering
- LTH Profile Area: Water
Publishing year
1993
Language
English
Pages
23265-23274
Publication/Series
Journal of Geophysical Research
Volume
98
Issue
D12
Document type
Journal article
Publisher
Wiley-Blackwell
Topic
- Water Engineering
Status
Published
ISBN/ISSN/Other
- ISSN: 0148-0227