The project's main objective is to develop a highly innovative, secure-by-design framework that fully exploits the MaaS paradigm. This framework will offer secure data exchange between companies and cutting-edge tools to enhance production efficiency and sustainability. The MEDUSA framework will establish a seamless connection between existing marketplaces, facilitating optimized production by leveraging users' machinery and shared resources from other manufacturers. All resources will be treated as part of a distributed Cyber-Physical System of Systems (CPSoS), maximizing production. The implementation of an automation layer will enable the exchange of real-time production data and asset monitoring, allowing for the tracing and optimization of the product life cycle. The framework will also support the implementation of a DPP and provide AI-based tools for manufacturers to support decision-making for production planning, remanufacturing, and machine reconfiguration, always being energy-aware.

The goal of EnSO is to develop and consolidate a unique European ecosystem in the field of autonomous micro energy sources (AMES) supporting Electronic European industry to develop innovative products, in particular in IoT markets. In summary, EnSO multi-KET objectives are: • Objective 1: demonstrate the competitiveness of EnSO energy solutions of the targeted Smart Society, Smart Health, and Smart Energy key applications • Objective 2: disseminate EnSO energy solutions to foster the take-up of emerging markets. • Objective 3: develop high reliability assembly technologies of shapeable micro batteries, energy harvester and power management building blocks • Objective 4: Develop and demonstrate high density, low profile, shapeable, long life time, rechargeable micro battery product family. • Objective 5: develop customizable smart recharge and energy harvesting enabling technologies for Autonomous Micro Energy Source “AMES”. • Objective 6: demonstrate EnSO Pilot Line capability and investigate and assess the upscale of AMES manufacturing for competitive very high volume production. EnSO will bring to market innovative energy solutions inducing definitive differentiation to the electronic smart systems. Generic building block technologies will be customizable. EnSO manufacturing challenges will develop high throughput processes. The ENSo ecosystem will involve all the value chain from key materials and tools to many demonstrators in different fields of application. EnSO work scope addresses the market replication, demonstration and technological introduction activities of ECSEL Innovation Action work program. EnSO relates to several of the Strategic Thrusts of ECSEL MASP. EnSO innovations in terms of advanced materials, advanced equipment and multi-physics co-design of heterogeneous smart systems will contribute to the Semiconductor Process, Equipment and Materials thrust. The AMES will be a key enabling technology of Smart Energy key applications.

The market for organic & printed electronic products is growing at a high level (BUS$ 23-24 in 2014) with predicted annual growth rates of 20 % in all fields. Although the use of OLAE in products is still limited and only have been commercialized by large corporates, the number and type of products has grown significantly. These emerging markets are a huge opportunity for the EU industry. But EU small & mid-size companies have had only a limited access to technologies and often lack the capabilities needed to benefit from OLAE. These include the ability to fully understand the technological implications and the related business implications. They need support in the translation of the OLAE technologies into innovative products, assessing potential markets, finding investors, developing new business models and creating the right partnerships to optimally benefit from OLAE opportunities. SMARTEES will be the Digital Innovation Hub dedicated to OLAE, an organized European innovation network that provides both access to competencies and business support for innovation adoption. SMARTEES will help the European industry to create a competitive advantage within the global economy by providing access to disruptive OLAE technologies and innovation support in a pragmatic, operative and efficient pan-European manner. A 1-Stop-Shop will be set to establish a collaborative environment and to provide wider access to the technology at the same time as coordinating the bespoke services and efficiently and effectively linking them together. 20 Application Experiments will be conducted to explore the technology transfer into business, organization of cooperation, access to finance, services to be provided and act as showcases to raise awareness and activate potential users. The established eco-system will be harnessed by the consortium to propel the continuity of the initiative beyond SMARTEES. This will include the formulation of a comprehensive business plan as a strategic outcome.

Despite a decrease since the 90s, 3.1M non-fatal accidents still happen at work, with at least four days of absence from work, and around 3 300 fatal accidents in the EU-27. These work-related accidents and illnesses cost the EU economy 460 b€ in 2019, i.e., 3.3% of GDP annually. Production machines are one of the accident causes. In France, 10 to 15% of accidents at work are related to their use, leading to working day lost equivalent to a company of 15000 people that do not work for a whole year. In 2021 the EC proposed a new strategic framework for Health and Safety at Work (HSW) to protect health (incl. mental) and safety of its 170 million workers and achieve sustained decent working conditions for all workers, especially in the new world of work brought about by the digital transitions and industry 5.0. Digital transition is driven by the introduction of robots, AI and remote work that reduce the risks of dangerous tasks and increases productivity. But cognitive overload, digital fatigue, mental exhaustion and various forms of ‘techno-stress’ are also increasing and shall be tackled to ensure HSW. EARASHI will support Start-ups and SMEs in the uptake of advanced digital eco-responsible technologies (in particular AI, data and robotics) to help workers in their daily activities and improve their working conditions (safety, health and well-being) leading to productivity increase. Through open calls, 10 beneficiaries will access to leading edge technologies and test facilities from RTOs and industrial partners, business support, mentoring by industrial pairs, support in Ethics, system integration and user acceptance. Selected projects will focus on improving work conditions and worker trust and acceptance of collaborative embodied AI in robotic systems for the production machine application field. By investing early in and sustaining competitive emerging enabling technologies, EARASHI will contribute to accelerate an eco-responsible digital transition by 2030.

Research on Poverty-Related Diseases (PRDs) in sub-Saharan Africa suffers from major technological and non-technological challenges that prevent high quality healthcare to reach many areas. Not only their performance, but also the affordability, manufacturability, suitability for Low- and Middle-Income Countries (LMICs) and deployment of the (few) available diagnostics are main barriers to ensure good quality of healthcare in sub-Saharan Africa. The HoliCare project aims to tackle such challenges from a holistic perspective, by bridging the gap between technological excellence, available infrastructures, capacity, and local uptake of new technologies. We have chosen to work with lower respiratory infections as a blueprint for our new approach due to their huge clinical and socioeconomic impact, and relevance to the SARS-CoV-2 pandemic. Technology-wise, we propose a 2-tiered, digitally interfaced diagnostic approach that will start in the field using multiplexed lateral flow tests for rapid screening and triage, followed by a referral to a hospital (when needed) and a follow-up detailed diagnosis using a POC-Instrument performing simultaneous nucleic acid amplification (LAMP) for pathogen identification and immunoassays for host biomarker quantitation. Digital and manufacturing infrastructures will encompass these technology innovations to ensure future local product development. Quality controlled biobanks will be developed for executing reliable clinical studies. Training and human capital investment will be achieved by focussed and high-level training activities. Adoption and implementation activities will pave the way for the proposed diagnostic solutions to be successfully deployed, fitting the purpose of the local populations. Our developments will be scalable, adaptable and transferrable to other diseases and national (eco) systems, aiming to contribute to the improvement of healthcare delivery in sub-Saharan Africa.