The RESONANCE project develops an innovative software framework that provides means for rapid development and plug-and-play deployment of standard-compliant Customer Energy Manager (CEM), Resource Manager (RM), and their aggregation solutions. The CEM, specified in the EN 50491-12 standard family, is the next-generation demand-side flexibility management (DSFM) solution in Europe. CEM is a software agent that automates DSFM by interacting with smart appliances (represented by RMs), aggregators, and the markets to maximize customer benefits. According to the new EN 50491-12-2 standard, CEMs are envisioned to 1) provide a more deterministic demand response, and 2) be able to optimize consumer benefits with respect to multiple incentives and optimization targets. To achieve this, there is a need for accurate models of flexible assets (smart appliances) and model predictive control techniques to automate the decision-making within the customer premises. The RESONANCE Framework will facilitate the adoption of CEMs as the next generation DSFM system by significantly reducing the development efforts and costs. This is achieved with 1) a standard-compliant and modular system architecture, and 2) an innovative modeling pipeline that combines automated machine learning (AutoML) with physics-based modeling to provide accurate and robust models of flexible assets with minimum effort. The project brings together 19 partners (including a cluster with 40 organizations) with inter-disciplinary expertise and forms a basis for a cross-sector energy ecosystem that significantly contributes to the mobilization of DSFM at a large scale. Large scale piloting in six member states with a variety of consumer sectors, flexible assets (e.g. electric vehicles, HVAC systems, and white goods), stakeholders, and market settings (including sector integration with district heating) is utilized for demonstrating and validating the scalability and replication potential of the solutions.

Aiming at decarbonising the energy systems of geographical islands, MAESHA will deploy the necessary flexibility, storage and energy management solutions for a large penetration of Renewable Energies. Cutting-edge technical systems will be developed and installed, supported by efficient modelling tools and adapted local markets and business frameworks. A community-based approach will be adopted to ensure the constant consideration of local populations’ best interests throughout the project. Putting together 10 SMEs, 3 industrial partners, 2 universities and 6 public organisations from 9 countries, MAESHA gathers strong partners with the needed expertise to develop and disseminate relevant solutions for a universally beneficial energy transition on islands. After establishing the proper use-cases and architecture designs to ensure interoperability (WP1), MAESHA will develop modelling tools from real-time to long-term energy-economy observations (WP2) together with adapted business, market and regulatory frameworks (WP4). In parallel the community-based approach will be launched (WP3). All these activities lay the foundation for the technical development of management systems for aggregating flexibility (WP5) and devices based on synergies with assets of the territories (WP6), optimised together through a flexibility aggregating platform (WP7). After systems integration (WP8), the solutions will be fully demonstrated on Mayotte (WP10) and their replicabilities will be studied in five follower islands (WP10). Dedicated WPs for communication, dissemination (WP11) and management (WP12) will maximize the impacts. With its activities, MAESHA is expected to lead to at least 70% RE penetration and reach more than 90% of Mayotte’s population. Through its strong local implantation and the focus put on replication and dissemination activities, MAESHA will deeply modify insular energy features throughout Europe and its impacts will be felt far beyond the project’s framework.

PROBONO brings together a European multidisciplinary consortium of 47 partners, construction and consulting entities, public asset service managers, municipalities, technology solution providers and experts, to turn the six European districts (PROBONO´s Living Labs) into Green Building Neighborhoods (GBN), with positive energy balance and zero carbon emissions: two large-scale demonstrators (Madrid and Dublin) and four living labs representing business/owner promoters of the green buildings and neighborhoods’ transition (Porto, Brussels, Aarhus, Prague). PROBONO will provide strong examples of how GBN's technological and social innovations can be applied, with a vision focused on building infrastructure and a renewed focus on people and sustainability, taking full advantage of digitalization and smart technologies for the benefit of society. The adoption of the PROBONO approach and innovations will be proposed through a range of participatory methods that promote stakeholders (including citizens) partaking in co-designing and co-delivering a sustainable GBN. PROBONO will provide GBN Strategic Planning Tools in spatial, economic, technical, environmental regulatory, and social context aligned with city and urban masterplans and policy frameworks. PROBONO will create evidence-based policy recommendations, standardization actions, and robust adoption and commercialization strategies supported by a capacity-building program and a European Alliance of GBN Innovation Clusters. PROBONO will provide a GBN Digital Twin (DT) implemented across the LLs as a virtual representation of associated GBN including operational assets that implicate environmental and efficiency KPI. A cloud-based decision support-planning tool will be created to develop an optimized design for carbon-neutral energy GBN systems incorporating PROBONO innovative solutions on GBN demand and response dynamics. The technological developments will include metering different utilities with electricity, gas, warm energy, cold energy, and water linked to Smart IoT gateway and Energy Optimisation middleware, all this combined with geothermal, PV, micro-turbines, efficient HVAC technologies, green roofs, custom insulation, and GB energy optimization, efficient energy storage and integrating EV charging value chain. To enhance wide-scale adoption and standard creation, PROBONO will contribute with evidence-based policy recommendations, standardization actions, and robust adoption and commercialization strategies.