The increasing need to find alternative energy sources, combined with the general urgency to decarbonise the way we produce, store and consume in order to meet the EU's climate and sustainability targets, is stimulating a massive and rapid use of critical raw materials, which are fundamental to the production of electrical and electronic equipment and batteries, pillars of the green and digital transition that the EU is called upon to achieve. The challenges are increasingly important given the rapidly changing geopolitical environment. AutoMat is responding to these cross-cutting and urgent challenges through the timely introduction of disruptive, holistic, circular and sustainable target-driven concepts and solutions, driven by the implementation of the following key aspects: i) High value-added recycling technologies, mainly focused on preparing batteries and EEE components (battery packs, modules, cells, parts and materials) for re-use, through the most advanced collaborative-adaptive and flexible disassembly, sorting and material recovery technologies and integrated solutions, in order to drastically reduce the amount of non-reusable parts and materials, and to return to the market with new products (including chemicals) able to meet the needs of the market ii) Transversal digitisation of solutions towards a multi-level and continuous digital data exchange and elaboration able to support new strategies of advanced and compliant separate collection to increase the quality and availability of target streams, support in real time the efficiency of recycling-reuse processes through the homogenisation of external inputs, provide always personalised and predictive information on the most appropriate operations to be applied, aiming at a massive reduction of risks and waste during handling, collection and recycling operations, provide digital passports to second life applications, to strengthen the efficiency of the outputs coming from the AutoMat global value chain.

As the world's population increases in age, the number of people living with dementia grows. Dementia has long been considered to be neither preventable nor treatable, but while the underlying illnesses are not curable, today we know that the disease course might be modifiable with good preventive interventions at an early time point. The Finnish Geriatric Intervention Study to Prevent Cognitive Impairment and Disability (FINGER) showed a positive effect after a 2-year intervention targeting several lifestyles and vascular risk factors simultaneously. LETHE will go beyond and provide a data-driven risk factor prediction model for older individuals at risk of cognitive decline building upon big data analysis of cross-sectional observational and longitudinal intervention datasets from 4 clinical centers in Europe including the 11- years analysis of FINGER. LETHE will establish novel digital biomarkers, for early detection of risk factors, based on unobtrusive ICT-based passive and active monitoring. The aim is to establish a digital-enabled intervention for cognitive decline prevention based on the evolution of a successful protocol (FINGER) evolving into an ICT based preventive lifestyle intervention through individualized profiling, personalized recommendations, feedback and support (FINGER 2.0), well targeted on a population stratified by cost-effective biological biomarkers. The LETHE solution will be tested in a feasibility study validating the achieved improvements. A successful LETHE project could lead to a more personalized risk factor prevention for persons with beginning cognitive decline, thereby empowering people to an active and healthy lifestyle. Expansions of prevention trials on large scale by an automatized roll out of a multimodal intervention approach, reaching out to large populations, could save future costs on expensive traditional interventions and confer benefits for the wider society.

In the current complex socio-economic situation, European producers face challenges posed by a growing scarcity of raw materials and goods, fluctuating costs and unpredictable delivery times. According to the EU agenda, they must contribute to reducing the environmental impact of manufacturing processes to prevent climate change and to achieve zero carbon emissions. Thus, the only sustainable option is to rethink the Life Cycle of goods and search for new approaches to give new life to End of Life (EoL) products. Grounding on this vision, the RemaNet project aims to enable a widespread diffusion of the concepts of remanufacturing, recycling, material saving and functional upgrading by implementing a factory-integrated digital platform able to extend the remanufacturing value chain. The main project goal is to establish a new remanufacturing business model by creating a community where different actors can make available their specific know-how and contribute to any step of the remanufacturing process. To achieve this goal, multiple digital tools will be developed on the RemaNet digital platform. Horizontal tools will help matching supply and demand, also providing secure data sharing to spread the needed competences in terms of human resources or digitized formalized knowledge. Vertical tools will enable the integration of shopfloor and process data with advanced tools for monitoring, prognostics and full traceability of material and information flows as well as cutting edge remanufacturing technologies. The digital platform will provide a standard for manufacturing and re-manufacturing with an integrated and easy-to-use infrastructure fostering a reliable and secure data flow, access, and use at all levels, from shopfloor and further along the value chain. The proposed business model and digital solutions will be validated in five use cases ranging from automotive to mold and dies, and to the energy sector and its decarbonization.

Path4Med is a multi-participatory and multidisciplinary project that will pave clear pathways towards zero water and soil pollution in the agro-hydro-system of the Mediterranean sea basin and other European seas through an innovative triple bottom line approach achieving economic, social, and environmental sustainability to ensure human well-being and ecosystems functioning. Path4Med will advance and consolidate agricultural management technologies and solutions within an inclusive and open participatory environment, it will evolve and mainstream novel monitoring technologies and integrated solutions, it will assess the technical feasibility and socioeconomic viability of cascades of solutions through an integrated modelling framework, it will quantify the effectiveness and the net impact of these solutions, and ultimately it will empower Citizens to take action against pollution of soils, waters and the ocean, through clear measurable evidences, increased awareness, and water literacy. Path4Med pathways will be applied and demonstrated in large scale, integrated, Demonstration Sites established in representative Mediterranean areas, in areas representing other European seas and in associated regions. A digital platform and other relevant digital tools will be established to facilitate Path4Med actions, information and knowhow communication, and to support data exchange and data feeding to international Observatories and Knowledge Systems.

DigiPrime has the mission to develop a new concept of Circular Economy digital platform overcoming current information asymmetry among value-chain stakeholders, in order to unlock new circular business models based on the data-enhanced recovery and re-use of functions and materials from high value-added post-use products with a cross-sectorial approach. DigiPrime will create and operate a federated model of digital platforms for cross-sector business in the Circular Economy. Nodes of the federation will offer interoperable functions and data, that can be accessed by other nodes, combined with local data and services, that are not exposed outside; connectors and open interfaces enable easy integration of new services, provided by third parties, that are not made accessible outside. Specific attention will be devoted to create trustable data sharing mechanisms, preserving the confidentiality of business-critical data. Security and sovereignity of information are guaranteed by IDSA (Industrial Data Space Association)-based solutions for on-demand and controlled sharing of data among organisations, regulated by smart contracts and tracked by block-chain. The services covers: i) the cross-sector value-Chains dimension (De- and remanufacturing oriented product information management, product co-creation, LCA-LCC for eco-design, demand-supply matching, sustainable value network and reverse logistics barriers identification and legislation support, etc.), ii) the operational dimension (rediction of product conditions, de-and remanufacturing decision support system, demand and supply forecasting, circular production planning and control, material testing and certificationetc). DigiPrime, will be thoroughly validated through 6 cross-sectorial pilots, further detailed in 20 use-cases covering 5 different European industrial sectors (automotive, renewable energy, electronics, textile, construction), and by additional pilots in new sectors, funded through an Open Call mechanism.