The paper presents an approach to specify initial and boundary conditions from the output data of global model SLAV for mesoscale modelling of atmospheric processes in areas not covered by meteorological observations. From the data and the model equations for a homogeneous atmospheric boundary layer the meteorological and turbulent characteristics of the atmospheric boundary layer are calculated. © (2015) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only
Despite significant advances in the simulation of synoptic scale weather events, current numerical w...
In this thesis, we are aimed at various physical principles of convective parametrization. First, tr...
Boundary-layer schemes are essential components of numerical weather-forecasting and climate models....
The paper presents an approach to specify initial and boundary conditions from the output data of gl...
The accuracy of the results of numerical modeling of local atmospheric processes, in particular thos...
In this paper a summary is given of the basic approaches for the modeling and parameterization of tu...
The paper presents research concerning application of mesoscale models and remote sensing data to me...
The parameterised description of subgrid-scale processes in the clear and cloudy boundary layer has ...
The MIUU mesoscale model was further developed, in order to include information on large-scale atmos...
In this contribution we deal with the representation of the atmospheric boundary layer (ABL) for mod...
Meteorological fields are required inputs for air-quality models, but they can contain significant e...
Atmospheric boundary layer flows are characterized by the coexistence of a broad range of scales. Th...
The paper presents research results concerning developing software for determining optimum aircraft ...
In this study the role of atmospheric boundary layer schemes in climate models is investigated. Incl...
International audienceRecent increases in computing power mean that atmospheric models for numerical...
Despite significant advances in the simulation of synoptic scale weather events, current numerical w...
In this thesis, we are aimed at various physical principles of convective parametrization. First, tr...
Boundary-layer schemes are essential components of numerical weather-forecasting and climate models....
The paper presents an approach to specify initial and boundary conditions from the output data of gl...
The accuracy of the results of numerical modeling of local atmospheric processes, in particular thos...
In this paper a summary is given of the basic approaches for the modeling and parameterization of tu...
The paper presents research concerning application of mesoscale models and remote sensing data to me...
The parameterised description of subgrid-scale processes in the clear and cloudy boundary layer has ...
The MIUU mesoscale model was further developed, in order to include information on large-scale atmos...
In this contribution we deal with the representation of the atmospheric boundary layer (ABL) for mod...
Meteorological fields are required inputs for air-quality models, but they can contain significant e...
Atmospheric boundary layer flows are characterized by the coexistence of a broad range of scales. Th...
The paper presents research results concerning developing software for determining optimum aircraft ...
In this study the role of atmospheric boundary layer schemes in climate models is investigated. Incl...
International audienceRecent increases in computing power mean that atmospheric models for numerical...
Despite significant advances in the simulation of synoptic scale weather events, current numerical w...
In this thesis, we are aimed at various physical principles of convective parametrization. First, tr...
Boundary-layer schemes are essential components of numerical weather-forecasting and climate models....