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Smart Energy Efficient Middleware for Public Spaces Smart City - UPM Turin , February 27, 2013

Smart Energy Efficient Middleware for Public Spaces Smart City - UPM Turin , February 27, 2013. Summary. Consortium Project Objectives The project expected impacts Project Workplan The demonstrator The Building Information Model The Interoperability for Energy Simulations

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Smart Energy Efficient Middleware for Public Spaces Smart City - UPM Turin , February 27, 2013

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  1. Smart Energy EfficientMiddleware for Public Spaces Smart City - UPM Turin, February 27, 2013 Turin, February 27, 2013 – Smart City - UPM

  2. Summary Consortium Project Objectives The projectexpectedimpacts Project Workplan The demonstrator The Building Information Model The Interoperabilityfor Energy Simulations The definition of the WSN The software infrastructure The link between BIM and BAS Conclusions Turin, February 27, 2013 – Smart City - UPM

  3. Consortium University Research Center Industry and SME Turin, February 27, 2013 – Smart City - UPM

  4. Project Objectives SEEMPubS addresses energy and CO2 footprint reduction in existing public buildings and spaces without significant constructions works, by an intelligent ICT-based service-based monitoring and management of energy consumption. To develop an integrated electronic system and interoperable web-based software solution for real-time energy performance monitoring and control of lighting, heating, ventilation and air conditioning services through wireless sensor networks in existing buildings and open public spaces. To significantly raise people’s awareness for energy efficiency in public spaces basing on the management philosophy of the integrated facility. The system will provide multidimensional visualization of parameters of building operations and data sharing from energy-consuming equipment and appliances. To define standards (such as ISO) and a model for existing buildings and public spaces in Europe starting from the most significant research results achieved through project. Turin, February 27, 2013 – Smart City - UPM

  5. The projectexpectedimpacts The expected project impact is in accordance with the European Commission directives: Contribute to the opening of a market for ICT-based customized solutions integrating numerous products from different vendors and offering services from design of integrated systems to the operation and maintenance phases. Establish a collaboration framework between the ICT and the building industry aimed at exploiting opportunities for the development of ICT-based systems in compliance with the Energy Performance of Buildings Directive. Reduce energy consumption and CO2 emissions, in line with the policy framework for facilitating the transition to an energy-efficient and low-carbon economy through ICT. Turin, February 27, 2013 – Smart City - UPM

  6. Project Workplan WP1 Energy Auditing energy saving potential and Monitoring System WP2 Control System Building Management Unit and Building Information Management and control logic optimization Process data WP3 Public Energy Awareness and user interaction Tools to involve users into Interaction with the EE System and to create ambient awarenessof the Energy Status of the Public Space WP4 System Development Integration Telematic Management system for Energy and Maintenance and middleware for System Interoperability WP7Project Management WP6Dissemination: information about policies Test cases RTD Models and tools Simulation and exploration framework DEM WP5Demonstration and Validation Experimental operation, economic, energetic and environmental assessment MGT Turin, February 27, 2013 – Smart City - UPM

  7. The demonstrator The campus of Politecnico di Torino is the demonstrator of SEEMPubS. Main Campus and Cittadella Politecnica Valentino Castle http://seempubs.polito.it/ Turin, February 27, 2013 – Smart City - UPM

  8. The demonstrator Six TEST and REFERENCE room have been selected different for size, use, period of construction, etc. T R Milano, February 25, 2013 – Incontro con IFMA

  9. The Building Information Model The demonstrator First phase: building information model standards and collaborative work. Second phase: basic models. Third phase: survey and preliminary model. Fourth phase: selection of interoperable software. Fifth phase: model implementation for analysis and management. Valentino Castle Existing/HistoricalBuildings Main Campus Cittadella Politecnica Turin, February 27, 2013 – Smart City - UPM

  10. The Interoperability forEnergy Simulations Interoperabilityhasbeentested on thermal and lightingfields. Revit Architecture SketchUp 7Pro dxf HVAC TRNASYS17 Daysim Revit Architecture 3ds Max Ecotect fbx Lighting Radiance FILE LINK MANAGER Turin, February 27, 2013 – Smart City - UPM

  11. The definition of the WSN Each room hasbeenequippend. Turin, February 27, 2013 – Smart City - UPM

  12. The software infrastructure A web service-oriented software infrastructure has been designed to manage heterogeneous and commercial wireless sensor nodes belonging to different WSNs. To enable hardware independent access to the nodes the LinkSmart middleware has been selected. So, the software should automatically associate virtual end-nodes to real physical devices in the different WSNs. LinkSmart Architecture Turin, February 27, 2013 – Smart City - UPM

  13. The link between BIM and BAS To link BIM and BAS, an Android application has been developed in order to provide real time building information related to a specific room exploiting both augmented and virtual reality. Turin, February 27, 2013 – Smart City - UPM

  14. Conclusions Due to the complexity and the heterogeneity of the architectural technologies and solutions, only collaborative research based on standards can help the AEC&FM industry to solve the present problems. The SEEMPubS activity will continue with the DIMMER project. Energy CFO BIM Lighting FM SEEMPubS HVAC Simulations Maintenance Turin, February 27, 2013 – Smart City - UPM

  15. http://seempubs.polito.it/ Turin, February 27, 2013 – Smart City - UPM

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