This paper deals with the implementation and the migration into OpenMI of a monthly conceptual hydrological model, called UTHBAL. The model has been developed by Loukas et al. [2003, 2007] and now is implemented under the Microsoft Visual Studio .NET C# IDE. The integrated decision support framework provided consists of an autonomous model engine, a graph editor, an optimization/calibration server and a migration wrapper. The software allows input data polymorphism and extensibility of model integration, which is lumped in the present form. The infrastructure for incorporating various optimization libraries has also been built. On line data exchange is feasible since the model has been migrated into OpenMI through a dynamically configurable...
Component based architectures offer an alternative approach for building large, complex hydrologic m...
The U.S. National Science Foundation supported Consortium of Universities for the Advancement of Hyd...
International audienceWe develop a new large-scale hydrological and water resources model, the Commu...
The present study describes the migration and coupling of a monthly conceptual rainfall runoff model...
This paper presents a prototype software system for integrated environmental modeling that provides ...
Modeling complicated hydrologic systems often requires the integration of disparate data and models....
Modeling frameworks provide the ability to create open, flexible modeling systems where simulations ...
Hydrologists need simple, yet powerful, open source framework for developing and testing mathematica...
Following the release of the OpenMI 2.0 standard for model coupling with reference object classes (i...
For decision makers in the domains of agriculture and environment, for instance in government agenci...
European researchers have created a software standard named the Open Modeling Interface (OpenMI; htt...
Difficulty in linking data and models across organizations is one of the barriers to be overcome in ...
Extreme hydrometeorological events such as flash floods have caused considerable loss of life and da...
OpenMI is a standard used to link water and environmental models. However, the standard and the curr...
Abstract: The Water Framework Directive (WFD) poses an immense challenge to water management in Euro...
Component based architectures offer an alternative approach for building large, complex hydrologic m...
The U.S. National Science Foundation supported Consortium of Universities for the Advancement of Hyd...
International audienceWe develop a new large-scale hydrological and water resources model, the Commu...
The present study describes the migration and coupling of a monthly conceptual rainfall runoff model...
This paper presents a prototype software system for integrated environmental modeling that provides ...
Modeling complicated hydrologic systems often requires the integration of disparate data and models....
Modeling frameworks provide the ability to create open, flexible modeling systems where simulations ...
Hydrologists need simple, yet powerful, open source framework for developing and testing mathematica...
Following the release of the OpenMI 2.0 standard for model coupling with reference object classes (i...
For decision makers in the domains of agriculture and environment, for instance in government agenci...
European researchers have created a software standard named the Open Modeling Interface (OpenMI; htt...
Difficulty in linking data and models across organizations is one of the barriers to be overcome in ...
Extreme hydrometeorological events such as flash floods have caused considerable loss of life and da...
OpenMI is a standard used to link water and environmental models. However, the standard and the curr...
Abstract: The Water Framework Directive (WFD) poses an immense challenge to water management in Euro...
Component based architectures offer an alternative approach for building large, complex hydrologic m...
The U.S. National Science Foundation supported Consortium of Universities for the Advancement of Hyd...
International audienceWe develop a new large-scale hydrological and water resources model, the Commu...