Building cross-project collaborations to power up innovation
Synergies
INBLANC has joined forces with the DATAWiSE, DeCO2, RECONMATIC and WILSON research projects.
Funded by the Horizon Europe Programme, all five projects aim to offer unique solutions that support integrated, interoperable, sustainable, and digitalised construction and renovation processes through data-driven approaches.
Turning collaboration into ongoing progress
Exchange of know-how among experts who share a common research mission
Stronger ties and cooperation among EU-funded research beneficiaries
Greater visibility for scientific developments than just one-off initiatives
Explore the projects
Intelligent and sustainable building management powered by cross-sectoral lifecycle
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DATAWiSE is an innovation project that targets building management by utilizing advanced data-driven software solutions. The ultimate aim of the project is to provide technology related to creating and maintaining smart, energy-efficient buildings while promoting sustainability. This is achieved by integrating methods that reduce operational costs and prioritize the overall comfort and safety of building occupants into the building management process.
Dynamic decarbonization pathways framework: integrating technological, social, and policy innovations for sustainable renovations in the built environment
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The DeCO2 Horizon Europe project envisions a circular and sustainable decarbonised future for the European built environment. DeCO2 proposes user-centric innovations that address building renovation challenges in alignment with the needs of local industrial ecosystems and communities.
The project blends technological innovations through active social engagement, and effective policy interventions aiming to boost circularity and reduce emissions in renovations across Europe. DeCO2 proposes a data-driven dynamic framework for decarbonisation pathways to foster circular economy principles within the built environment.
The DeCO2 demonstration sites provide real-world settings to pilot test DeCO2 innovations, offering safe regulatory testbeds as sandboxes. Three diverse value chains shape the project demonstration sites and ensure that the needs of the market are addressed at all levels:
A bio-based material-oriented approach established within the Irish demonstration site;
An industrial ecosystem-oriented case in Spain engaging actors from multiple stakeholders within a deconstruction / renovation scenario;
A Living-Lab focusing on social acceptance through community inclusion in Austria.
Automated solutions for sustainable and circular construction and demolition waste management
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RECONMATIC is a Horizon EU-funded project working to revolutionise construction and demolition waste (C&DW) management through automation and digitalisation. At its core, the project aims to embed circularity into the full life cycle of buildings, from design and construction to deconstruction, by developing smart tools and automated processes that enable better material tracing, waste separation, and reuse. RECONMATIC demonstrates practical, scalable solutions in diverse European contexts, helping the construction industry transition towards a zero-waste future aligned with EU climate and circular economy goals.
Distributed data modelling and federated digital twinning for lifecycle data-driven sustainable operation and management of buildings and districts
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The WILSON project aims to enhance data management in the built environment through a decentralized, interoperable data mesh architecture, integrating advanced data analytics and digital twin technologies to improve Building Management Systems (BMS). The project will develop 9 innovations that focus on data management, interoperability, planning, management, environmental performance, and building diagnostics. Furthermore, 12 Key Exploitable Results will translate these innovations into practical applications such as tools for predictive maintenance, biodiversity assessment, semantic renovation, risk and resilience analysis, and smart readiness indicators, aiming for commercialization and policy impact. WILSON will be tested in 4 large-scale pilots to ensure solutions integration, aiming to upgrade 200,000 m² of buildings, reduce maintenance costs by 35%, and support the EU’s energy and environmental goals.