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FIGARO DSS platform V0

FIGARO DSS platform V0. Annual meeting - Rome 20-JAN-2015. Agenda. General description of the system Detailed explanation how the system runs Expected outputs What’s in and what’s missed. System’s general description. uManage. AquaCrop. HydroNET.

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FIGARO DSS platform V0

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  1. FIGARO DSS platform V0 Annual meeting - Rome 20-JAN-2015

  2. Agenda Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity General description of the system Detailed explanation how the system runs Expected outputs What’s in and what’s missed

  3. System’s general description uManage AquaCrop HydroNET Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity

  4. In order to work as a stand alone system, AquaCrop database, is based on text files Project file .pro Climate files .cli Rainfall .plu ET0.et0 Temperature .tmp CO2 .co2 Crop file .cro Soil-water files Soil file .sol Water cont. .gwt start condition .swo Management files Farm mng. .man Irrigation mng. .irr Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity

  5. Current system deployment User HydroNET Server application Aquasafe Server application uManage Server application uManage web application AquaCrop plug-in AquaCrop application AquaCrop standard File system AquaCrop Template File system AquaCrop Projects File system

  6. Administrator should create the AquaCrop database repository in uManage server User Administrator create locally the required AquaCrop input files by AquaCrop Application HydroNET Server application Aquasafe Server application uManage Server application uManage web application AquaCrop plug-in AquaCrop application 1 AquaCrop standard File system AquaCrop Template File system AquaCrop Projects File system

  7. Administrator should create the AquaCrop database repository in uManage server User HydroNET Server application Aquasafe Server application uManage Server application uManage web application 2 AquaCrop plug-in AquaCrop application Administrator upload the template files to uManage server by uManage Application AquaCrop Projects File system AquaCrop standard File system AquaCrop Template File system

  8. User builds his own FIGARO DSS platform Setting up the uManage system Building up the irrigation blocks Connecting the right data units (sensors & actuators) to the blocks Draw the blocks on map Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity

  9. User builds his own FIGARO DSS platform Setup an interface to Aquasafe Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity

  10. User builds his own FIGARO DSS platform Setup an interface to Aquasafe User HydroNET Server application Aquasafe Server application uManage Server application uManage web application uManage updates Aquasafe with all required interface details AquaCrop plug-in AquaCrop application uManage creates for each irrigation block, its whole project files on Aquasafe server AquaCrop standard File system AquaCrop Template File system AquaCrop Projects File system

  11. Example: Farm name – uManageIrrigation blocks: IB77, IB78, IB79 Files repository on uManage server Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity Projects’ files on Aquasafe server

  12. FIGARO DSS runs AquaCrop DSS model automatically User HydroNET Server application Aquasafe Server application uManage Server application uManage web application AquaCrop plug-in AquaCrop application AquaCrop standard File system AquaCrop Template File system Aquasafe allocate all external data Aquasaferuns AquaCrop plugin Aquasafe sends results to uManage AquaCrop Projects File system

  13. Results will be reflected to the end user through the standard uManage UI tools – Graphs & Reports Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity Irrigation recommendation Weather forecast – temperature, ET0, Rain, RH, radiation Expected canopy cover Expected water content Expected yield

  14. This coming year field test will tell if we’re on the right way Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity • Minimal implementation led to leave the file system and the AquaCrop UI with the AquaCrop application • Fine tune is required to make sure we run the platform as required • Intermediate simulation results • Use the real world data within the simulation correctly • Select right relevant outputs • First answers, however, will come only after system usage in this field test season

  15. Notes Flexible and precIse irriGation plAtform to improve faRm scale water prOductivity • Minimal implementation led to leave the file system and the AquaCrop UI with the AquaCrop application • Fine tune is required to make sure we run the platform as required • Intermediate simulation results • Use the real world data within the simulation correctly • Select right relevant outputs • How to calculate the updated value of : • Canopy cover (CC) • Above-ground biomass (B) • Soil water profile (θ-z) • How to run the new AquaCrop with the hot start • Ask Rafi to be responsible to the task of how sensors should be involved with AquaCrop.

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