ArticlesNo Access

CODING AND DISTANCE CALCULATING OF SEPARATELY RANDOM FRACTALS AND APPLICATION TO GENERATING RIVER NETWORKS

CHUN-PO HUNG

Department of Bioenvironmental Systems Engineering, National Taiwan University, Taipei 10617, Taiwan, ROC

Search for more papers by this author

and

RU-YIH WANG

Department of Bioenvironmental Systems Engineering, National Taiwan University, Taipei 10617, Taiwan, ROC

Search for more papers by this author

https://doi.org/10.1142/S0218348X05002738Cited by:12 (Source: Crossref)

Abstract

This work develops a preliminary method for coding random self-similar patterns as a series of numbers and investigates the corresponding algorithm to calculate the topological distance between starting point and the link in the generated fractal pattern from the code series. With reference to the wide range of stochastic property in natural patterns, a process for generating fractal patterns with various generating probabilities of the pattern links denoted as separately random self-similar generation or separately random fractal is proposed. To assess the adaptability of the process, the coding method is applied to the generation of a random self-similar river network and the corresponding algorithm for calculating topological distance of the links is used to determine the width function of the pattern. The width function-based geomorphologic instantaneous unit hydrograph (WF-GIUH) model is then applied to estimate the runoff of the Po-bridge watershed in northern Taiwan. The results show that the separately random self-similar generating algorithm can be implemented successfully to calculate hydrologic responses.

Keywords:

References

B. Mandelbrot , The Fractal Geometry of Nature ( Freeman , New York , 1982 ) . Google Scholar
D. G. Tarboton, R. L. Bras and I. Rodriguez-Iturbe, Water Resour. Res. 24, 1317 (1988). Crossref, Web of Science, Google Scholar
R. Moussa and C. Bocquillon, J. Hydro. 187, 157 (1996). Crossref, Web of Science, Google Scholar
V. I. Nikora and V. B. Sapozhnikov, Water Resour. Res. 29, 3569 (1993). Crossref, Web of Science, Google Scholar
V. Gupta, E. Waymire and C. T. Wang, Water Resour. Res. 16, 855 (1980). Crossref, Web of Science, Google Scholar
A. Rinaldo, R. Rigon and A. Marani, Water Resour. Res. 27, 513 (1991). Crossref, Web of Science, Google Scholar
P. Claps, M. Fiorentino and G. Oliveto, J. Hydro. 187, 145 (1996). Crossref, Web of Science, Google Scholar
K. Falconer, Fractal Geometry: Mathematical Foundations and Application (Wiley, England, 1990) pp. 113–137. Google Scholar
M. Fiorentino and P. Claps, Water Resour. Res. 29, 1215 (1993). Crossref, Web of Science, Google Scholar
S. Veitzer and V. Gupta, Water Resour. Res. 36, 1033 (2000). Crossref, Web of Science, Google Scholar
P.-J. Wang and R.-Y. Wang, Fractals 10(2), 157 (2002). Link, Web of Science, Google Scholar
S. A. Veitzer and V. K. Gupta, Adv. Water Resour. 24, 955 (2001). Crossref, Web of Science, Google Scholar
M. Menabdeet al., Adv. Water Resour. 24, 991 (2001). Crossref, Web of Science, Google Scholar
I. Rodriguez-Iturbe and A. Rinaldo, Fractal River Basin (Cambridge University, United Kingdom, 1996) pp. 468–508. Google Scholar
Q. Duan, S. Sorooshian and V. K. Gupta, J. Hydro. 158, 265 (1994). Crossref, Web of Science, Google Scholar