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POLITECNICO DI TORINO TRIBUTE and DIMMER. DIMMER - The context One of the major challenges in today’s economy concerns the reduction in energy usage and.

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Presentation on theme: "POLITECNICO DI TORINO TRIBUTE and DIMMER. DIMMER - The context One of the major challenges in today’s economy concerns the reduction in energy usage and."— Presentation transcript:

1 POLITECNICO DI TORINO TRIBUTE and DIMMER

2 DIMMER - The context One of the major challenges in today’s economy concerns the reduction in energy usage and CO2 footprint in existing public buildings and spaces without significant construction works The concept of Smart City – The main idea is to make an intensive use of ICT to improve efficiency of energy utilization, renewable energy integration and comfort in cities through Smart grid (electricity/thermal) Smart mobility Smart communities Smart energy systems

3 DIMMER - Challenges Challenges – Heterogeneous types of buildings Special attention is paid to historical buildings, which are typically less energy efficient and impose tight deployment constraints to avoid damage by extensive retrofitting – Heterogeneous information systems and data sources – Promote pervasive usage of ICT through new business models What we need: – Integration technologies – Information sharing – Interactive means (audio / video / AR / 3D virtual models)

4 DIMMER – Smart City Information System Smart devices Data collection system Information repository/models (e.g. BIM) Decision support system User awareness, profiling and social behavior analysis

5 DIMMER – From BIM to DIM Bring information models from building level to district level – Building models – Distribution network models Real time interaction/visualization – A/R – Q/R codes – Virtual district models

6 DISTRIC LEVEL BUILDING LEVEL PEOPLE LEVEL Manchester Turin DIM BIM AR

7 DIMMER - Outcome District Information Model and Management for Energy Reduction – Monitor energy consumption, envirnomental parameters and energy production – Actuate energy relevant parameters at buildings (e.g. fan coils, lighting) and district level (water temperature in district heating) – Represent buildings and network in a virtual model with real-time data visualization – Optimize energy efficiency and promote local energy balancing exploting renewable energy – Promote user awareness through A/R – Social behavior analysis

8 WSN Middleware DB - Interoperability Ontology WEB QRCode BIM Grid DIM Simulation and Visualization EE Engine Cost Algorithm Users Awareness Business Model

9 Smart building District Heating public private Smart District Sensor node ENERGY BALANCING Data are available by tablet and smart phone in AR using QR Code People move from house to work/school and vice versa Data cloud web-based Weather conditions

10 TRIBUTE As of today, building energy performance simulation tends to show large discrepancies with real energy performances during the building lifetime. – Building energy performance simulation tool tend to have difficulties in estimating these performances, while being very efficient during the building design phase. TRIBUTE aims at proposing a novel approach for monitoring and assessing the building energy performance, at providing a comprehensive energy optimization at building level and a continuous estimation of the building state of health. It will be based on adaptive and predictive techniques, while taking into account the inhabitant habits and needs. – Relying on this monitoring tool, a continuous energy flow optimization for the building will be proposed, to insure the best usage of available renewable energy sources. Inhabitant requirements and all type of energies will be included in the optimization scheme.

11 TRIBUTE Based on a wireless sensor networks, building energy consumption will be monitored while external sensors, such as temperature and irradiance sensor will help establishing a prediction of renewable energy production. The TRIBUTE smart sensor network (temperature, CO2, occupancy, humidity, noise, and thermography) will be the base for the development of a self- adaptive building/occupancy building model that includes the inhabitant’s behaviour.

12 TRIBUTE Deployed and demonstrated on three validation sites, in different climates and with different building use, the HautBois system will help inhabitants to bring their house in line with European directives and will lead to recommendations for new certification standards. As a summary, thanks to its adaptive behaviour, HautBois will bring a reliable energy assessment in a reduced time and a building optimization tool, in which inhabitants will play a pivotal role.

13 TRIBUTE - Approach

14 TRIBUTE – PoliTO Role We can contribute to: – Design of the smart sensor network (make it energy-efficient and autonomous) – Design of middleware and web services for interoperation of heterogeneous sensors – Eventually contribute on predictive and adaptive model, especially for prediction of energy consumption, exploiting experience in embedded system energy estimation

15 TRIBUTE – PoliTO Role Runtime adaptation of monitoring parameters and sensor network configuration such as sample rate, number of active sensors based on the model needs – This has the purpose of improving energy efficiency and autonomy of the wireless sensor nodes, to avoid frequent battery replacement Development of techniques to provide unlimited autonomy to wireless networks based on energy harvesters (e.g. PV cells) – This will increase the efficiency of monitoring and limit management costs Development of middleware and web services to expose monitored parameters independently from HW characteristics (interoperability)


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