AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                GEOFRAME



         ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



         NUOVO ADIGE MODEL

          ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                       DECISION MAKING...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



            HYDROLOGICAL MODELS
Equati...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                HYDROLOGICAL MODELS
Eq...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



HYDROLOGICAL SUBMODELS

              ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                USER’S POINT OF VIEW

...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                USER’S POINT OF VIEW

...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                USER’S POINT OF VIEW

...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




FLEXIBILITY from modeling point of vi...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                        COMPONENTS
   ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                         GLOSSARY


• ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                            GLOSSARY
...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                          GLOSSARY


...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                         GLOSSARY

• ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



                       GLOSSARIO



• ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




Nuovo Adige Implements the concept of
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



  FROM CUAHSI PROJECT
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



  FROM CUAHSI PROJECT


              ...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige



          FROM CUAHSI PROJECT




Resi...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                     J-HYDRO:
      ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                     J-HYDRO:
      ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                     J-HYDRO:
      ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                     J-HYDRO:
      ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                     J-HYDRO:
      ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




            Database
  (PostgresSQL/PostGIS/CUAHSI)
...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




               Database
     (PostgresSQL/PostGIS/CU...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                      Database
     ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                                       Database
    ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                Database
      (PostgresSQL/PostGIS/...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello



                             Database
               ...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                        Database
              (Post...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                   Database
         (PostgresSQL/Po...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




                      Database
            (Postgres...
AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello




              Database
    (PostgresSQL/PostGIS/CUAH...
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                Models (UNITN/OpenMI)
AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige




                Models (UNITN/OpenMI)
Models (UNITN/OpenMI)




The approach to hydrological modeling is different for peripheral zones
of Adige basin, where na...
Modelli (UNITN/OpenMI)




                              Evapotranspiration
Meteo Forcing




                            ...
Models (UNITN/OpenMI)


                         •Kriging rainfall spatial interpolation
Meteo Forcing            Temperat...
Models (UNITN/OpenMI): the digital watershed



Hydrological modeling data automatically extracted from DB are:

    geome...
Models (UNITN/OpenMI): dynamic database

Geometries for model execution are created for any single simulation, thanks to a...
Modelli (UNITN/OpenMI): network geometries creation
Models (UNITN/OpenMI): selecting closure nodes
Models (UNITN/OpenMI): selecting closure nodes
Models (UNITN/OpenMI): viewing macro basins
Models (UNITN/OpenMI): macro basins




non active nodes
Meteo Forcing Needed and Managed



Meteorological data used by models are:
    rainfall




    temperature




    pre...
Meteo Forcing
Snow




Distributed model splits any basic basin (max area 5 km2) in altitude




layers and bands;
    evaluates stored...
Runoff
Routing



•Routing model solves Saint Venant equations, and sets the
required hydrodynamic 1D parameters;
Numerical integ...
Routing: intakes and withdrawals




                              withdrawal: to Montecatini
                            ...
Routing: intakes and withdrawals




                                   intake to Adige from
                             ...
Routing: intakes and withdrawals
Routing: longitudinal profile




Villa Lagarina                                   Marco
User Interfaces
                      (Java/JGRASS)




Open Source GIS developed by CUDAM and Department of
Civil and Env...
User Interfaces
                             (Java/JGRASS)



•Open Source GIS developed by CUDAM and Department of Civil ...
User Interfaces
                             (Java/JGRASS)



•Open Source GIS developed by CUDAM and Department of Civil ...
INTERFACCIA GRAFICA: JGrass
                        User Interface (JGRASS)




      LAYERS VIEW




DATABASE CONNECTION
User Interface (JGRASS)




 ATTRIBUTE
TABLE VIEW
User Interface (JGRASS)
User Interface (JGRASS)




•Open Source GIS developed by CUDAM and Department of Civil and
Environmental Engineering of U...
User Interface (JGRASS)
User Interface (JGRASS)
User Interface (JGRASS)




•Open Source GIS developed by CUDAM and Department of Civil and
Environmental Engineering of U...
User Interface (JGRASS)
User Interface (JGRASS)


•Open Source GIS developed by CUDAM and Department of Civil and
Environmental Engineering of Uni...
User Interface (JGRASS)
User Interface (JGRASS)


•Open Source GIS developed by CUDAM and Department of Civil and
Environmental Engineering of Uni...
User Interface (JGRASS)


•Open Source GIS developed by CUDAM and Department of Civil and
Environmental Engineering of Uni...
User Interface (JGRASS): setting simulation parameters
User Interfaces (JGRASS)



•Open Source GIS developed by CUDAM and Department of Civil and Environmental
Engineering of U...
User Interface (JGRASS): simulation run


     Viewing simulation result:
 Measured and forecasting discharge
    Rainfall...
Routing: flood hydrograph in Villa Lagarina




       12/09/2007 - 14-09/2007
Routing: Leno intake
Routing: Montecatini withdrawal
Routing: uniform flow profile
Routing: activation of intakes and withdrawals
Routing: activation of intakes and withdrawals




                      Leno intake
Routing: activation of intakes and withdrawals




                                        Montecatini withdrawal
        ...
Routing: activation of intakes and withdrawals




                                        Montecatini withdrawal
        ...
Snow
MODELS INTEGRATION
OpenMi: standard way to models integration



Possible changing models for the same computation



 M...
Thank you!
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NewAGEImplementsGEOFRAME

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NewAGEImplementsGEOFRAME

  1. 1. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GEOFRAME Prof. Riccardo Rigon Ing. Andrea Antonello Ing. Silvia Franceschi Ing. Davide Giacomelli Trento, 17 gennaio 2007
  2. 2. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige NUOVO ADIGE MODEL Contents The Nuovo Adige model is a hydrologicaI model:  working in continuous;  with real time data acquired from database;  fit to simulate low water periods on the whole basin;  calculating water balance;  built on international standards (CUAHSI, OPENMI).
  3. 3. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige DECISION MAKING EVALUATION OF STRATEGIES THROUGH EVALUATION OF STRATEGIES THROUGH MODELS EVALUATION OF STRATEGIES THROUGH MODELS MODELS DATA INTERPRETATION STRATEGIES FOR POLICY MAKERS DATA INTERPRETATION STRATEGIES FOR POLICY MAKERS DATA INTERPRETATION STRATEGIES FOR POLICY MAKERS
  4. 4. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige HYDROLOGICAL MODELS Equations Parameters Data Mass, momentum Equation’s and energy constant. In time! Forcings and conservation. observables In space they are Chemical heteorgeneous transformations
  5. 5. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige HYDROLOGICAL MODELS Equations Parameters Data Mass, momentum Equation’s and energy constant. In time! Forcings and conservation. observables In space they are Chemical heteorgeneous transformations Data Assimilation. Calibration, Numerics, Data Models. derivation from boundary and Tools for Analysis. proxies initial conditions
  6. 6. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige HYDROLOGICAL SUBMODELS Evapotranspiration Rainfall Reservoirs and Snow withdrawals Runoff and Routing
  7. 7. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige USER’S POINT OF VIEW EASY Interacting in the simplest way in line with the complexity of the problem
  8. 8. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige USER’S POINT OF VIEW OPEN EASY SOURCE Interacting in the NOT bound to simplest way in line closed and with the complexity reserved of the problem architectures
  9. 9. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige USER’S POINT OF VIEW OPEN EASY FLEXIBLE SOURCE Interacting in the A system that NOT bound to simplest way in line can evolve in closed and with the complexity time if new reserved of the problem demand are architectures manifested
  10. 10. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige FLEXIBILITY from modeling point of view means allowing new models integration, by the way the knowledge of dynamics increases or new numeric methods are defined, with no change on EXTERNAL system structure (i.e. Implementing “plug-ins” method)
  11. 11. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige COMPONENTS external users web database Interfaces (Java/udig/JGrass/BeeGIS) Analysis Models Tools (UNITN/R) (UNITN/OpenMI) Database (PostgresSQL/PostGIS/HSQL/H2/CUAHSI)
  12. 12. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GLOSSARY • JGrass – Is GIS platform developed by CUDAM, Hydrologis and ICENS, E’ la piattaforma GIS sviluppata da CUDAM, Hydrologis e ICENS, GRASS and ESRI compatible. All data and model interface development is based upon JGRASS 3.0 standards
  13. 13. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GLOSSARY • CUAHSI - Consortium of Universities for the Advancement of Hydrologic Science (representing more than one hundred United States universities) provides web services, tools, standards and procedures that enhance access to more and better data for hydrologic analysis. CUDAM is CUAHSI international member. Nuovo Adige is developed upon consortium specifications.
  14. 14. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GLOSSARY • OPENMI - I a set of specification for models integration. Originally developed in the HarmonIT EU project (DHI and Wallingfort software, among others). All model OpenMI compliant can be connected and used
  15. 15. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GLOSSARY • PostgreSQL/PostGIS is an Open Source relational database including geographic extensions (i.e. the management of geometric features) • Arc Hydro, is the database archietecture adopted by CUAHSI as base of its hydrological data management system.
  16. 16. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige GLOSSARIO • DSpace - Is the DIGITAL archive developed by MIT for the management of several (non geographic data sets)
  17. 17. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige Nuovo Adige Implements the concept of
  18. 18. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige FROM CUAHSI PROJECT
  19. 19. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige FROM CUAHSI PROJECT Hydrovolume Geovolume From Maidment, 2006
  20. 20. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige FROM CUAHSI PROJECT Residence time distribution Discharge rating curve From Maidment, 2006
  21. 21. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello J-HYDRO: The network structure Resolution level 5 Resolution level 4 Resolution level 3 Resolution level 2 Resolution level 1
  22. 22. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello J-HYDRO: The network structure Resolution level 4 Resolution level 3 Resolution level 2 Resolution level 1
  23. 23. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello J-HYDRO: The network structure Resolution level 3 Resolution level 2 Resolution level 1
  24. 24. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello J-HYDRO: The network structure Resolution level 2 Resolution level 1
  25. 25. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello J-HYDRO: The network structure Resolution level 1
  26. 26. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) Netnode related to network and basins
  27. 27. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) Time series are linked to monitoring points:
  28. 28. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) Summary of all monitoring points in database
  29. 29. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) Wind velocity (id=217) Rainfall (id=216) Lasa Temperature (id=219) Wind direction (id=218) An example of time series linked to a monitoring point, extracted from database
  30. 30. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) Tools have been developed to managing insertion and creation of geometries and time series data, necessary to models’ run: • Geometries insertion; • Positioning of cross sections; • Lake intersections; • Computation of water withdrawal; • Time series updating.
  31. 31. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) GEOMETRIES INSERTION • Copying geometries from shapefiles to database tables; • Extracting topological nodes from net geometries; • Creating links between different geometries (nets, net nodes,basins).
  32. 32. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) POSITIONING OF CROSS SECTIONS • Finding intersections between network and CROSS sections; • Computation of new nodes progressive distance, and network updating; • Copying new informations to analysis tables.
  33. 33. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) LAKE INTERSECTIONS • Finding intersections between network and lake geometries; • Labeling intake nodes and outtake nodes; • Copying new node informations to node tables.
  34. 34. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) COMPUTATION OF WATER WITHDRAWAL • Evaluating maximum available discharge to withdrawal, for different destination uses and different time periods.
  35. 35. AdB Adige – CUDAM - Bilancio idrico di superficie di primo livello Database (PostgresSQL/PostGIS/CUAHSI) TIME SERIES UPDATING • Rewriting input file to SQL; • Linking time series to related monitoring points; • Creating new metadata.
  36. 36. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige Models (UNITN/OpenMI)
  37. 37. AdB Adige – CUDAM - Difesa idrogeologica e bilancio idrico nel bacino dell’Adige Models (UNITN/OpenMI)
  38. 38. Models (UNITN/OpenMI) The approach to hydrological modeling is different for peripheral zones of Adige basin, where natural outflow is preponderant, and for main river channels where instead is fundamental to consider artificial works: Basin peripheral area: a Rainfall-Runoff model (called GEOcuencas) is  used; Main river: a 1D routing model is used for discharge evaluation,  counting both natural and artificial intakes and withdrawals, if there are.
  39. 39. Modelli (UNITN/OpenMI) Evapotranspiration Meteo Forcing Reservoirs and Snow withdrawals Runoff and Routing
  40. 40. Models (UNITN/OpenMI) •Kriging rainfall spatial interpolation Meteo Forcing Temperature spatial interpolation  Evapotranspiration evaluation model  Evapotranspiration Snow height evaluation on different quote layers model Snow  Partitioning rainfall/infiltration model  Infiltration Geomorphological runoff model Runoff 
  41. 41. Models (UNITN/OpenMI): the digital watershed Hydrological modeling data automatically extracted from DB are: geometries (network structure)  time series (hydrometers and weather stations)  withdrawals data  reservoirs data  The hydrological model can be run in any of the critical points in the basin: • nodes: points in basin like: hydrometers, artificial reservoirs, lakes, points where you want to evaluate discharge; macrobasins: areas marked by drainage divides and a node, o located between two  consecutive nodes; basic basins: basic hydrologic unit; with surface < 2 km2. 
  42. 42. Models (UNITN/OpenMI): dynamic database Geometries for model execution are created for any single simulation, thanks to a hierarchical numbering scheme, based on Pfafstetter numbering scheme (Verdin and Verdin, 1999). In this way one can extract upstream elements, starting from current net Pfafstetter number, so you can navigate the whole network and build related basins. Then macrobasins are created, closed on the node selected by the user for current simulation.
  43. 43. Modelli (UNITN/OpenMI): network geometries creation
  44. 44. Models (UNITN/OpenMI): selecting closure nodes
  45. 45. Models (UNITN/OpenMI): selecting closure nodes
  46. 46. Models (UNITN/OpenMI): viewing macro basins
  47. 47. Models (UNITN/OpenMI): macro basins non active nodes
  48. 48. Meteo Forcing Needed and Managed Meteorological data used by models are: rainfall  temperature  pressure  moisture  wind velocity  solar radiation  These data are evaluated on basic basins.
  49. 49. Meteo Forcing
  50. 50. Snow Distributed model splits any basic basin (max area 5 km2) in altitude  layers and bands; evaluates stored rain water depth and possible snow melting;  Create a filter between measured rain water and hydrological model,  modifying model input
  51. 51. Runoff
  52. 52. Routing •Routing model solves Saint Venant equations, and sets the required hydrodynamic 1D parameters; Numerical integration of 1D model uses difference finite  scheme; The initial condition is given by uniform flow upon the whole  domain; Boundary conditions are defined upstream/downstream  depending on flow regime; Generic cross sections could be used;  Intakes and withdrawals are evaluated; 
  53. 53. Routing: intakes and withdrawals withdrawal: to Montecatini channel
  54. 54. Routing: intakes and withdrawals intake to Adige from Montecatini channel withdrawal from Adige to Biffis channel
  55. 55. Routing: intakes and withdrawals
  56. 56. Routing: longitudinal profile Villa Lagarina Marco
  57. 57. User Interfaces (Java/JGRASS) Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, collaborating with HydroloGIS
  58. 58. User Interfaces (Java/JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Mainly targeted environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS
  59. 59. User Interfaces (Java/JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Mainly targeted environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS Displays vector data from database 
  60. 60. INTERFACCIA GRAFICA: JGrass User Interface (JGRASS) LAYERS VIEW DATABASE CONNECTION
  61. 61. User Interface (JGRASS) ATTRIBUTE TABLE VIEW
  62. 62. User Interface (JGRASS)
  63. 63. User Interface (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database Displays several different data (not in DB) like shapefiles, rasters, DEM,  satellite images…
  64. 64. User Interface (JGRASS)
  65. 65. User Interface (JGRASS)
  66. 66. User Interface (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database •Displays several different data (not in DB) like shapefiles, rasters, DEM, satellite images… •Sets closure point, to evaluate flood hydrograph
  67. 67. User Interface (JGRASS)
  68. 68. User Interface (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database •Displays several different data (not in DB) like shapefiles, rasters, DEM, satellite images… •Sets closure point, to evaluate flood hydrograph •Rules models’ run •Sets models are going to be used
  69. 69. User Interface (JGRASS)
  70. 70. User Interface (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database •Displays several different data (not in DB) like shapefiles, rasters, DEM, satellite images… •Sets closure point, to evaluate flood hydrograph •Rules models’ run •Sets models are going to be used •Turning on/off monitoring points like reservoirs and hydrometers
  71. 71. User Interface (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database •Displays several different data (not in DB) like shapefiles, rasters, DEM, satellite images… •Sets closure point, to evaluate flood hydrograph •Rules models’ run •Sets models are going to be used •Turning on/off monitoring points like reservoirs and hydrometers •Setting simulation parameters
  72. 72. User Interface (JGRASS): setting simulation parameters
  73. 73. User Interfaces (JGRASS) •Open Source GIS developed by CUDAM and Department of Civil and Environmental Engineering of University of Trento, in collaboration with HydroloGIS •Dedicated mainly to environmental analysis, joins a user friendly interface and a complex analysis engine, partially developed on purpose, partially derived from GRASS •Displays vector data from database •Displays several different data (not in DB) like shapefiles, rasters, DEM, satellite images… •Sets closure point, to evaluate flood hydrograph •Rules models’ run •Sets models are going to be used •Turning on/off monitoring points like reservoirs and hydrometers •Setting simulation parameters •Viewing simulation result Possible simulation saving in both HSQL and PostgreSQL/Postgis database 
  74. 74. User Interface (JGRASS): simulation run Viewing simulation result: Measured and forecasting discharge Rainfall and snow contribution
  75. 75. Routing: flood hydrograph in Villa Lagarina 12/09/2007 - 14-09/2007
  76. 76. Routing: Leno intake
  77. 77. Routing: Montecatini withdrawal
  78. 78. Routing: uniform flow profile
  79. 79. Routing: activation of intakes and withdrawals
  80. 80. Routing: activation of intakes and withdrawals Leno intake
  81. 81. Routing: activation of intakes and withdrawals Montecatini withdrawal Leno intake
  82. 82. Routing: activation of intakes and withdrawals Montecatini withdrawal Leno intake
  83. 83. Snow
  84. 84. MODELS INTEGRATION OpenMi: standard way to models integration  Possible changing models for the same computation  Managing temporal cycle directly from JGrass  Possible different languages models integration: Java, Fortran, C Possible run of several OpenMi compliant models (Sobek, HecRAS, Mike 11...) 
  85. 85. Thank you!

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