International audienceThis paper aims at quantifying the uncertainty on urban runoff associated with the unmeasured small scale rainfall variability, i.e. at a resolution finer than 1. km. ×. 1. km. ×. 5. min which is usually available with C-band radar networks. A case study is done on the 900. ha urban catchment of Cranbrook (London). A frontal and a convective rainfall event are analysed. An ensemble prediction approach is implemented, that is to say an ensemble of realistic downscaled rainfall fields is generated with the help of universal multifractals, and the corresponding ensemble of hydrographs is simulated. It appears that the uncertainty on the simulated peak flow is significant, reaching for some conduits 25% and 40% respectivel...
Hydrological fields are known to exhibit extreme variability over wide range of spatio-temporal scal...
Universal Multifractals (UM) have been extensively used to model and simulate geophysical fields ext...
International audienceIn this paper we suggest to use scaling laws and more specifically Universal M...
International audienceThis paper aims at quantifying the uncertainty on urban runoff associated with...
In large urban areas such as the Paris and London one, storm water management is a challenge. Indeed...
International audienceWe use a multifractal characterization of two heavy rainfall events in the Lon...
International audienceThe goal of this paper is to quantify the uncertainty of sewer discharge assoc...
International audienceIn this paper the sensitivity to small scale unmeasured rainfall variability (...
In large urban areas, storm water management is a challenge with enlarging impervious areas. Many ci...
The resolution of the rainfall data usually provided by operational C-band radar networks of Western...
International audienceThe aim of this paper is to quantify the sensitivity of an operational semi-di...
Hydrological fields are known to exhibit extreme variability over wide range of spatio-temporal scal...
Universal Multifractals (UM) have been extensively used to model and simulate geophysical fields ext...
International audienceIn this paper we suggest to use scaling laws and more specifically Universal M...
International audienceThis paper aims at quantifying the uncertainty on urban runoff associated with...
In large urban areas such as the Paris and London one, storm water management is a challenge. Indeed...
International audienceWe use a multifractal characterization of two heavy rainfall events in the Lon...
International audienceThe goal of this paper is to quantify the uncertainty of sewer discharge assoc...
International audienceIn this paper the sensitivity to small scale unmeasured rainfall variability (...
In large urban areas, storm water management is a challenge with enlarging impervious areas. Many ci...
The resolution of the rainfall data usually provided by operational C-band radar networks of Western...
International audienceThe aim of this paper is to quantify the sensitivity of an operational semi-di...
Hydrological fields are known to exhibit extreme variability over wide range of spatio-temporal scal...
Universal Multifractals (UM) have been extensively used to model and simulate geophysical fields ext...
International audienceIn this paper we suggest to use scaling laws and more specifically Universal M...