Precipitation forecasts provided by high-resolution NWP models have a degree of realism that is very appealing to most users of meteorological data. However, it is a challenge to demonstrate whether or not such forecasts contain more skillful information than their lower resolution counterparts. A verification procedure must be based on equally detailed observations that are also realistic in areas where ground observations are not available and remote sensing data can only increase the accuracy of the location of rain events at the cost of decreased accuracy in estimating the amount of rain that has actually reached the ground. Traditional verification methods based on station or grid point comparison yield poor results for high-resolution...
The representation of rainfall in space is important for hydrological modelling. Accurate estimation...
This paper evaluates the use of precipitation forecasts from a numerical weather prediction (NWP) mo...
The dynamic nature in which the atmosphere and land interact can render the spatial distribution of ...
Several spatial forecast verification methods have been developed that are suited for high-resolutio...
Numerical Weather Prediction (NWP) model quantitative precipitation forecasts (QPF) have been one of...
In the last decade satellite precipitation estimation techniques have reached significant improvemen...
It is becoming increasingly important to be able to verify the spatial accuracy of precipitation for...
Measures-based characterizations of errors in forecasts fail to provide useful information as increa...
International audienceTwo high resolution quantitative precipitation forecasts with different levels...
Increasing in resolution of numerical weather prediction models has allowed more and more realistic ...
The estimation of precipitation (rainfall and snowfall) across the Earth’s surface is important for ...
The development of NWP models with grid spacing down to 1 km should produce more realistic forecasts...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
This study investigates the use of Weather Research and Forecasting (WRF) high-resolution storm anal...
This article is focused on the comparison of the accuracy of quantitative, numerical, statistical an...
The representation of rainfall in space is important for hydrological modelling. Accurate estimation...
This paper evaluates the use of precipitation forecasts from a numerical weather prediction (NWP) mo...
The dynamic nature in which the atmosphere and land interact can render the spatial distribution of ...
Several spatial forecast verification methods have been developed that are suited for high-resolutio...
Numerical Weather Prediction (NWP) model quantitative precipitation forecasts (QPF) have been one of...
In the last decade satellite precipitation estimation techniques have reached significant improvemen...
It is becoming increasingly important to be able to verify the spatial accuracy of precipitation for...
Measures-based characterizations of errors in forecasts fail to provide useful information as increa...
International audienceTwo high resolution quantitative precipitation forecasts with different levels...
Increasing in resolution of numerical weather prediction models has allowed more and more realistic ...
The estimation of precipitation (rainfall and snowfall) across the Earth’s surface is important for ...
The development of NWP models with grid spacing down to 1 km should produce more realistic forecasts...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
This study investigates the use of Weather Research and Forecasting (WRF) high-resolution storm anal...
This article is focused on the comparison of the accuracy of quantitative, numerical, statistical an...
The representation of rainfall in space is important for hydrological modelling. Accurate estimation...
This paper evaluates the use of precipitation forecasts from a numerical weather prediction (NWP) mo...
The dynamic nature in which the atmosphere and land interact can render the spatial distribution of ...