@inproceedings{a3413c4067654e868096030114b32ff2,
title = "Impact of small-scale rainfall uncertainty on urban discharge forecasts",
abstract = "We used a multifractal characterization of two heavy rainfall events in the London area to quantify the uncertainty associated with the rainfall variability at scales smaller than the usual C-band radar resolution (1 km × 5 min) and how it transfers to sewer discharge forecasts. The radar data are downscaled to a higher resolution with the help of a multifractal cascade whose exponent values correspond to the estimates obtained from the radar data. A hundred downscaled realizations are thus obtained and input into a semi-distributed urban hydrological model. Both probability distributions of the extremes are shown to follow a power-law, which corresponds to a rather high dispersion of the results, and therefore to a large uncertainty. We also discuss the relationship between the respective exponents. In conclusion, we emphasize the corresponding gain obtained by higher resolution radar data.",
keywords = "Multifractals, Power law, Rainfall downscaling, Urban hydrology",
author = "A. Gires and D. Schertzer and I. Tchiguirinskaia and S. Lovejoy and C. Onof and C. Maksimovic and N. Simoes",
year = "2012",
month = dec,
day = "1",
language = "English",
isbn = "9781907161261",
series = "IAHS-AISH Publication",
pages = "400--406",
booktitle = "Weather Radar and Hydrology",
note = "International Symposium on Weather Radar and Hydrology, WRaH 2011 ; Conference date: 18-04-2011 Through 21-04-2011",
}