COGNIPLANT project will develop and demonstrate an innovative approach for the advanced digitization and intelligent management of the process industries. This approach will be based on a novel vision to data monitoring and analysis, that will make the most of the latest developments on advanced analytics and cognitive reasoning, coupled with a disruptive use of the Digital Twin concept to improve Production plants’ operation performance by up to 68% in real time control of the productive environment, 65% in quality control of the final products and 70 % in response time to uncontrolled incidents. The concept will be implemented by four end-users from four different SPIRE industries, one chemical industry in Austria, one aluminum refinery in Ireland, one concrete manufacturing industry in Italy and one metal industry in Spain. The COGNIPLANT solution will provide a hierarchical monitoring and supervisory control that will give a comprehensive vision of the plants’ production performance as well as the energy and resource consumption. Advanced data analytics will be applied to extract valuable information from the data collected about the processes and their effect on the production plant’s overall performance enabling to design and simulate operation plans in digital twin models based on the conclusions. As a result, optimal operation plans will be obtained that will improve the performance of those cognitive production plants. In addition, the project will demonstrate the positive impact derived from the implementation of COGNIPLANT solution that will allow industries reducing their CO2 emissions up to 20%. A training strategy will be designed to provide a comprehensive framework for the dissemination of the project outcomes and a clear understanding of the new solution for the employees of the SPIRE sectors.

CORE Innovation Centre (CORE) is a private non-profit research organisation, based in Greece and founded in 2021 as a full subsidiary of CORE Innovation Technology OE, focusing on Industry4.0 technologies, like machine learning, IoT, edge and cloud computing, Innovation Management and Communication. The vision of CORE is to become the biggest R&I centre in Southeastern Europe in the fields of Industry4.0. CORE aims to create an industrial ecosystem, composed of manufacturing companies and knowledge/research institutions, around the core principles of Industry 4.0 such as automation, zero-defect manufacturing, and flexible production based on a number of core technologies such as Machine Learning, Robotics, Big-Data and Digital Twins. This vision will be materialised through the development of Industry 4.0 Test Labs, which are practical environments where companies and research institutions develop, test and implement Industry 4.0 solutions under realistic conditions, as well as co-design the associated digital processes and new business models. The overall Twin4Twin goal is to raise the research profile of CORE as well as the research profile of its staff in the field of digital twin technologies. In parallel with the objectives, Twin4Twin’s concept approach is divided into four clusters: a. digital twins – scientific excellence b. research and innovation management upskilling, c. business development, and d. exploratory research project. To do that, CORE will run the twinning exercise with leading EU organisations, namely ITA from Spain (Reduced Order Models research in Digital Twins), SCCH from Austria (Big Data real time streaming technologies) and SSF from Switzerland (test and demo platform to be used as use case and provide the replication potential towards the Greek Smart Factory).Twin4Twin aims to reduce the disparity in production between Greece and top-class leading countries through knowledge transfer in smart manufacturing technologies.

In order to achieve high quality healthcare provision, it is increasingly important to collect highly confidential and personal medical data that has been obtained from a variety of sources, including personal medical medical devices and to share this through a variety of means, including public networks and other systems whose security cannot be implicitly trusted. Patients rightly expect full privacy, except where permission has been explicitly given, but they equally expect to be provided with the best possible medical treatment. Evidence suggests that integrating home-based healthcare into a holistic treatment plan is more cost effective, reduces travel-associated risks and costs, and increases the quality of health-care provision, by allowing the incorporation of more frequent home-, work- and environment-based monitoring and testing into medical diagnostics. There is a strong and urgent demand to deliver better, more efficient and more effective healthcare solutions that can achieve excellent patient-centric healthcare provision, while also complying with increasingly strict regulations on the use and sharing of patient data. This provision needs to be multi-site, crossing traditional physical and professional boundaries of hospitals, health centers, home and workplace, and even national borders. It needs to engage hospitals, medical practitioners, consultants and other specialists, as well as incorporating patient-provided data that is produced by personal monitoring devices, health-care apps, environmental monitoring etc. This creates huge pressures The goal of the SERUMS project is to put patients at the center of future health-care provision, enhancing their personal care, and maximizing the quality of treatment that they can receive, while ensuring trust in the security and privacy of their confidential medical data.