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ENergy aware BIM Cloud Platform in a COst-effective Building REnovation Context (ENCORE)

The main objective of ENCORE is to increase the share of renovated stock in Europe and worldwide by providing effective and affordable BIM tools that cover the whole renovation life-cycle (from data collection to project execution, and commissioning/delivery). It will tackle energy efficiency and comfort parameters, involving all the actors in the process (architecture studios, designers, constructors, tenants, or public administration), and facilitating information exchange among all the parties. To achieve this objective ENCORE proposes the creation of a system that integrates services for data acquisition from the buildings like Static LiDAR setups, and LiDAR or photogrammetry equipment embarked in UAVs. It will also allow to involve dwellers in the process by providing them with mobile tools to capture images or other in-doors information. It also provides support to architects and designers in the creation of the 3D models from the acquired data, automatically identifying and classifying the constructive elements, and allowing them to complete the model with existing BIM resources. They will be able to modify the model, presenting the energy efficiency gains of different renovation alternatives, including the impact in the overall budget. ENCORE will also provide mechanisms for the dwellers or owners to validate the project, either on-site with Augmented/Mixed Reality solutions, or on-line. Once the project is validated, ENCORE will automatically generate the work planning for the construction works, and once finalized, ENCORE will provide continuous monitoring of the energy consumption to ensure non-degradation of the renovation works. ENCORE will be validated in experimental facilities consisting of a baseline building and an experimental building that can be modified to measure the energy efficiency of the modification. Additionally, the pilot user owns several social buildings to renovate, where ENCORE can be validated in real life conditions.

Investigador/a de la Universidad de La Laguna

Coordinador del proyecto