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The Global system for High-resolution Hydrological Monitoring and Flood Forecasting (GH2MF2) is a Non-Profit project aiming at real time high resolution (1x1 km2) hydrological monitoring and forecasting in real time at Global Scale by continuously coupling Weather Forecast of GFS-0.25° to the hydrological distributed model TOPKAPI-eXtended and the uncertainty post-processor MCP.
The GH2MF2 Project
The Platform
The Hydrological Model TOPKAPI-X
The Uncertainty Processor: MCP
CONTACTS
DSS is a classical client – server application. The client side is an HTML 5 – CSS 3 application, it runs in one of the most common browser (Mozilla Firefox, Google Chorme, Safari). The server side consist in:
• A web server (Apache Web Server); • A map server (Geoserver); • A Geographical Relational Database Management Sytem (Postgresql +
Postgis); • Tools based on GDAL Lybraries.
The proposed platform is meant to be participative and interactive. To meet this objective, all information used in the system must be freely accessible to users, including the hydrological models, and allowed to set-up the models for the benefit of the community. The novel aspect of the proposed project and its platform is that any user will be allowed set-up, calibrate and validate hydrological models, by downloading from the platform the base maps (DEM, Flow Directions, Flow Accumulation, Soil Types and Land Use) and the hydro-meteorological forcing data.
1.UniversityofBologna;2.IdrologiaeAmbienteSrl;3.AriespaceSrl;4.Freeconsultant;5.UniversityofNaplesFedericoIIE.Todini1;E.OrFz2;C.deMichele3;EnriqueCifres4andG.B.Chirico5
GlobalsystemforHighresolu3onHydrologicalMonitoringandFloodForecas3ng-GH2MF2
TOPKAPI-XBasiniTOPKAPI-XBasin2
TOPKAPI-XBasin1
TOPKAPI-XBasinn
TOPKAPI-XCloudCompu3ng
GH2MF2PLATFORM
OTHERDATA
GFS0.25°
TRMM
GLOBALUSERS
Endorsed by the Italian Hydrological Society
The Data Sources
S
SIIH
Groundwater++Flow+
Evapo1transpira4on+
Snowmelt+
Overland+Flow+
Sub1Surface+Flow+
Channel+Flow+
Upper+Soil+Layer+Deeper+Soil+Layer+
Infiltra4on+
Percola4
on+
Aquifer+Layer+
Ezio Todini [email protected] Enrique Ortiz [email protected]
Global Land Cover
Soil Type Harmonized World Soil Database (HWSD)
Discharge: Global Runoff Data Centre and others as well as data from participating institutions
To account for the large prediction uncertainties in the forecasting chain, predictive probability assessments, based on the Model Conditional Processor, will be provided to the users to be used as part of rational decision making.
The hydrological model TOPKAPI-eXtended whose physically based parameters allow an easy settung-up using world-wide availablebase maps. TOPKAPI-X has already accumulated a long history in the literature as well in operation all over the world. The simulations are meant to be performed at hourly temporal resolution on spatial scales of 1x1 km2.
The system will be integrated into a Decision Support System (DSS) platform, based on geographical data. The DSS is a classical client-server web application (for Pcs,Tablets, Mobile Phones) not requiring installation (a web browser and an internet connection only) or updating (all upgrading being deployed on the remote server
The DSS
The Forcing
HydroSHEDS 30 arc-sec
Precipitation and temperature forcing will be provided by continuously coupling Weather Forecasts from Global Circulation Models, such as GFS-0.25 (deterministic and ensemble runs) and by assimilating remote sensing observed rainfall as in NASA product TRMM 3B42RT as well as using re-analyses such as ERA-Interim (ECMWF), CFSR (NCEP) or GLDAS. Local interested communities might also provide their own records and products.
S
SIIH
