Distributional analysis of river discharge time series is an important task in many areas of hydrological engineering, including optimal design of water storage and drainage networks, management of extreme events, risk assessment for water supply, and environmental flow management, among many others. Having diverging moments, heavy-tailed power-law distributions have attracted widespread attention, especially for the modeling of the likelihood of extreme events such as floods and droughts. However, straightforward distributional analysis does not connect well with the complicated dynamics of river flows, including fractal and multifractal behavior, chaos-like dynamics, and seasonality. To better reflect river flows\u27 dynamics, we propose ...
The seasonality of streamflow can vary widely from river to river and is influenced mostly by the lo...
Abstract For accurate forecasting of extreme events in rivers, streamflow time series with sub‐dail...
River networks constitute dissipative systems with many spatial degrees of freedom. Previous work by...
Hydrology and more generally sciences involved in water resources management, researches and technol...
Predicting magnitude and frequency of floods is a key issue in hydrology, with implications in many ...
Multifractal detrended fluctuation analysis (MFDFA) can provide information about inner regularity, ...
We propose an original approach to infer the flood frequency distribution at seasonal and annual tim...
Rainfall, one of the most important climate variables, is commonly studied due to its great heteroge...
We study temporal correlations and multifractal properties of long river discharge records from 41 h...
Scaling and multifractal properties of the hydrological processes of the Yangtze River basin were ex...
Nonlinear storage-discharge relations may explain important hydrologic features frequently observed ...
Seasonally dry ecosystems exhibit periods of high water availability followed by extended intervals ...
National audienceExtremes and multifractals in hydrology: results, validations and prospects. The me...
Streamflow simulation gives the major information on water systems to water resources planning and m...
The structure of a river network may be seen as a discrete set of nested sub-networks built out of i...
The seasonality of streamflow can vary widely from river to river and is influenced mostly by the lo...
Abstract For accurate forecasting of extreme events in rivers, streamflow time series with sub‐dail...
River networks constitute dissipative systems with many spatial degrees of freedom. Previous work by...
Hydrology and more generally sciences involved in water resources management, researches and technol...
Predicting magnitude and frequency of floods is a key issue in hydrology, with implications in many ...
Multifractal detrended fluctuation analysis (MFDFA) can provide information about inner regularity, ...
We propose an original approach to infer the flood frequency distribution at seasonal and annual tim...
Rainfall, one of the most important climate variables, is commonly studied due to its great heteroge...
We study temporal correlations and multifractal properties of long river discharge records from 41 h...
Scaling and multifractal properties of the hydrological processes of the Yangtze River basin were ex...
Nonlinear storage-discharge relations may explain important hydrologic features frequently observed ...
Seasonally dry ecosystems exhibit periods of high water availability followed by extended intervals ...
National audienceExtremes and multifractals in hydrology: results, validations and prospects. The me...
Streamflow simulation gives the major information on water systems to water resources planning and m...
The structure of a river network may be seen as a discrete set of nested sub-networks built out of i...
The seasonality of streamflow can vary widely from river to river and is influenced mostly by the lo...
Abstract For accurate forecasting of extreme events in rivers, streamflow time series with sub‐dail...
River networks constitute dissipative systems with many spatial degrees of freedom. Previous work by...