Add to ORKGIn this study high resolution precipitation data are used, derived from polarimetric X-band radar at 100 m, 1 min resolution. The data are used to study the impact of different space-time resolutions of rainfall input on urban hydrodynamic modelling response for 9 storms, in 7 urban catchments. The results show that hydrodynamic response behaviour was highly sensitive to variations in rainfall space-time resolution, more strongly so for changes in temporal than in spatial resolution. Under- and overestimations of flow peaks amounted to up to 100% with respect to the original 100 m, 1 minute rainfall input.status: publishe
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
SummaryUrban catchments are typically characterised by high spatial variability and fast runoff proc...
Cities are increasingly vulnerable to floods generated by intense rainfall, because of their high de...
This study investigates the impact of rainfall estimates of different spatial resolutions on the hyd...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
In this study high resolution precipitation data are used, derived from polarimetric X-band radar at...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Urban catchments are typically characterised by high spatial variability and fast runoff processes r...
SummaryUrban catchments are typically characterised by high spatial variability and fast runoff proc...
Cities are increasingly vulnerable to floods generated by intense rainfall, because of their high de...
This study investigates the impact of rainfall estimates of different spatial resolutions on the hyd...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...
International audienceThis study investigates the impact of rainfall estimates of different spatial ...