Summary
The Auto-DAN project aims to enable homes and small businesses across the EU to optimize their energy consumption and provide an assessment of the live energy performance of a building which takes into account the quality of appliances/systems installed, user operational habits and the smart readiness of a building.The solution is rooted in augmented intelligence which will focus on the assistive role automation will have in buildings, emphasizing the fact that cognitive technology is designed to enhance human intelligence rather than replace it and that the occupant is a proactive component of the building. Augmented Intelligence enhances a self-optimisation solution as it is a mix of automated controls with user interaction which will maximise the savings of a building in operation. To enable this step-change, the Auto-DAN project will deliver a trebled-structured project framework that evaluates the actual energy performance of EU buildings and provide building users with the awareness to proactively optimize their energy use. The following, lists the subdivisions of the solution:
• Smart Hardware Infrastructure - Adaptable hardware strategy that can be applied to all building types and features to ensure maximum replicabilbilty of the Auto-DAN solution across the EU building stock.
• Inter-operable Software Architecture - The data analysis platform iSCAN will be used as a foundation for self-optimizing and self-assessing EU buildings stock complemented by 2 analytical features that provides optimisation actions. Those features are a 1. Digital Occupancy Model and a 2. Digital Twin.
• Self-Energy Assessment Framework - Generates an automated, dynamic and continuous energy performance assessmentd erived from the monitoring of the energy consumption at building level, dis-aggregated monitoring at an appliance/system level and incorporates existing EU energy regulations (e.g. EPBD, ECO Design, SRI, and Energy Labeling).
• Smart Hardware Infrastructure - Adaptable hardware strategy that can be applied to all building types and features to ensure maximum replicabilbilty of the Auto-DAN solution across the EU building stock.
• Inter-operable Software Architecture - The data analysis platform iSCAN will be used as a foundation for self-optimizing and self-assessing EU buildings stock complemented by 2 analytical features that provides optimisation actions. Those features are a 1. Digital Occupancy Model and a 2. Digital Twin.
• Self-Energy Assessment Framework - Generates an automated, dynamic and continuous energy performance assessmentd erived from the monitoring of the energy consumption at building level, dis-aggregated monitoring at an appliance/system level and incorporates existing EU energy regulations (e.g. EPBD, ECO Design, SRI, and Energy Labeling).
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101000169 |
| Start date: | 01-10-2020 |
| End date: | 30-09-2025 |
| Total budget - Public funding: | 5 675 186,00 Euro - 4 415 245,00 Euro |
Cordis data
Original description
The Auto-DAN project aims to enable homes and small businesses across the EU to optimize their energy consumption and provide an assessment of the live energy performance of a building which takes into account the quality of appliances/systems installed, user operational habits and the smart readiness of a building.The solution is rooted in augmented intelligence which will focus on the assistive role automation will have in buildings, emphasizing the fact that cognitive technology is designed to enhance human intelligence rather than replace it and that the occupant is a proactive component of the building. Augmented Intelligence enhances a self-optimisation solution as it is a mix of automated controls with user interaction which will maximise the savings of a building in operation. To enable this step-change, the Auto-DAN project will deliver a trebled-structured project framework that evaluates the actual energy performance of EU buildings and provide building users with the awareness to proactively optimize their energy use. The following, lists the subdivisions of the solution:• Smart Hardware Infrastructure - Adaptable hardware strategy that can be applied to all building types and features to ensure maximum replicabilbilty of the Auto-DAN solution across the EU building stock.
• Inter-operable Software Architecture - The data analysis platform iSCAN will be used as a foundation for self-optimizing and self-assessing EU buildings stock complemented by 2 analytical features that provides optimisation actions. Those features are a 1. Digital Occupancy Model and a 2. Digital Twin.
• Self-Energy Assessment Framework - Generates an automated, dynamic and continuous energy performance assessmentd erived from the monitoring of the energy consumption at building level, dis-aggregated monitoring at an appliance/system level and incorporates existing EU energy regulations (e.g. EPBD, ECO Design, SRI, and Energy Labeling).
Status
SIGNEDCall topic
LC-SC3-B4E-10-2020Update Date
26-10-2022
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Organisations
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| IES R&D (Coördinator)
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| ARCELIK A.S.
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| CIVIESCO SRL
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| DELTA ECOPOLIS - SOCIETA COOPERATIVA
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| FLAIRBIT SRL
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| Fundacion CARTIF
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| MSEMICON TEORANTA
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| O CUALANN COHOUSING ALLIANCE COMPANY LIMITED BY GUARANTEE
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| R2M SOLUTION SRL
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| RINA CONSULTING SPA
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| RINA PRIME VALUE SERVICES SPA
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| Schneider Electric Italy
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| TECHNOLOGICAL UNIVERSITY DUBLIN (TU Dublin)
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| UNIVERSIDAD DE BURGOS