BEGIN:VCALENDAR VERSION:2.0 PRODID:-//pretalx//talks.osgeo.org//foss4g-europe-2026//talk//NLX383 BEGIN:VTIMEZONE TZID:EET BEGIN:STANDARD DTSTART:20001029T050000 RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=10 TZNAME:EET TZOFFSETFROM:+0300 TZOFFSETTO:+0200 END:STANDARD BEGIN:DAYLIGHT DTSTART:20000326T040000 RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=3 TZNAME:EEST TZOFFSETFROM:+0200 TZOFFSETTO:+0300 END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT UID:pretalx-foss4g-europe-2026-NLX383@talks.osgeo.org DTSTART;TZID=EET:20260630T143000 DTEND;TZID=EET:20260630T150000 DESCRIPTION:Managing water supply networks requires coordinating between in frastructure data\, hydraulic analysis\, and operational records. When GIS data\, hydraulic models\, and maintenance attributes are stored in separa te and different systems without interoperability between them\, it become s difficult to handle a consistent overview of network conditions and oper ations. To address this\, Consortis Geospatial introduces MAPtheYA: an adv anced geospatial platform that bridges these gaps by providing an end-to-e nd solution for unified water network management.\nMAPtheYA\, a name deriv ed from the acronym of the Greek Water Utility Services (DEYA)\, is an onl ine information system for managing water supply networks. It visualizes t he hydraulic network and the technical characteristics of each asset. MAPt heYA provides search capabilities for network elements and allows multiple users to edit the network. Thus\, the utility’s technical staff can sup ervise\, expand\, and modify the hydraulic network.\nThe platform integrat es EPANET hydraulic modeling to allow technical teams to move beyond stati c geometry into simulation. By calculating flows\, pressures\, and tank le vels over time\, MAPtheYA supports complex hypothetical scenarios. The pre sentation will explain how operators can simulate valve closures\, pipe fa ilures\, or changes in pressure zones to assess their impact on their wide r water network. Results are then presented through thematic maps and grap hs for both daily operations and long-term strategic planning. \nThe next set of capabilities planned is for MAPtheYA to manage operational data suc h as the recording of technical inspections\, fault history\, intervention s\, and ongoing construction projects. This will create a traceable digita l record for every component of the infrastructure and allow organizations to have a full view of their network.\nThe platform will offer a full set of RESTful APIs allowing interoperability with existing systems such as S CADA platforms\, enterprise resource planning (ERP) systems\, consumer man agement systems (CMS)\, or IoT devices\, through its open architecture. Th is integration enables managers to access information such as consumption data or sensor alerts directly within the GIS environment\, supporting mor e coordinated monitoring and informed decision-making across the water net work.\nThe current work-in-progress interface will be introduced\, present ing the main workflows and the general direction of the user interface\, w hich can be divided into three pillars. Three main aspects will be explain ed: the editing and expansion of the hydraulic network\, the modeling capa bilities based on EPANET simulation and the monitoring of the hydraulic ne twork’s state using sample data from IoT and hydrometric stations. DTSTAMP:20260605T033522Z LOCATION:A13 SUMMARY:MAPtheYA – A Unified GIS Ecosystem for the Smart Water Network Ma nagement - Stathis Petridis\, Dimosthenis Paradeisis\, Andreas Gkaravelis URL:https://talks.osgeo.org/foss4g-europe-2026/talk/NLX383/ END:VEVENT END:VCALENDAR