CORE Group takes on 7 new EU research projects


Author: CORE Innovation Centre

20th November 2023


CORE Group and CORE Innovation Centre are continuing on our trailblazing EU research journey, participating in a total of 7 new Horizon Europe projects. Our new research projects, which focus on the digital and green transitions, will help us put our expertise to good use, always focusing on our four CORE missions; Digital Transformation, Digital Tools, Digital Twins and Green Industry.

The new projects bring our total to over 40 research projects, ongoing or completed, and increase our research budget to over 13 million €. We are very excited for our participation in all these new projects, a preview of which you can get below, and look forward to working with our partners to deliver impactful change through machine learning.

M4ESTRO

M4estro aims to revolutionise manufacturing with its trust-based Manufacturing as a Service (MaaS) platform, offering proactive resilience and disruption readiness. It aims to unite industrial stakeholders for secure service exchange and emphasize workforce development. The platform analyses internal and external factors, aiming for reduced process ramp-up times, enhanced efficiency, lower costs, and job creation, ultimately delivering a significant return on investment for the consortium. M4estro, beyond a research project, can serve as a transformative force for industry resilience and sustainability.

  • As part of the project, our team will create an optimisation engine to assess product entry into the value chain, providing ranked paths based on resiliency. The results are going to be displayed on an interactive web application, featuring frontend and backend connections, fetching industrial capacities, visualising optimal paths and calculating efficiency and resiliency scores. Under the M4estro framework, resilience strategies are going to be adjusted for each pilot, addressing multiple level manufacturing processes, value networks, human-centricity, and manufacturing assets by focusing on both the component-level development (vertical) and the process chain implementation (horizontal).

    Our team will also drive dissemination and communication activities for the project, establish a strong visual identity, utilise diverse channels, and spearhead Intellectual Property Rights management, exploitation planning, and the development of sustainable business models for the M4estro solution.

 

METAWAVE

The Metawave consortium’s main goal is to implement advanced microwave-based heating systems in high-temperature heating processes in process industries, to enhance process efficiency, reduce energy consumption and lower greenhouse gas emissions. The project also focuses on integrating renewable energy sources through Virtual Power Plant configurations, accompanied by a smart Energy Management System (EMS), and fostering industrial symbiosis, ultimately achieving significant energy savings, emissions reduction, productivity increase, and economic growth for multiple stakeholders.

  • Our research team will lead the development of a smart EMS tailored for industrial microwave furnaces, forecasting the power demand and effectively managing the energy sources and storage components. Furthermore, we aim to utilise data-driven techniques, employing Machine Learning and Artificial Intelligence models, to support the development of a Digital Twin for modelling and optimizing the heating process. The findings of the EMS and the Digital Twin will feed a Decision Support System, accompanied by a friendly User Interface, so users can monitor and control of the heating process.

    Additionally, we will define the necessary principles and provide support in the selection of scalable architectures, targeting to make the process industries metaverse-ready. Finally, our team will take charge of the exploitation and innovation management of the project, aiming to develop an exploitation roadmap to launch the Metawave technologies to the market.

 

CARDIMED

Cardimed is a ground-breaking project which aims to unite efforts for Climate Resilience in the Mediterranean region. As part of Cardimed, a digital framework that will be developed to harmonise Nature Based Solutions (NBS) data by engaging communities through smart tools and a multi-stakeholder strategy. Adopting holistic modelling tools for the Water-Energy-Food-Ecosystems (WEFE) Nexus approach, the consortium will aim to address socio-ecological challenges across 9 demo sites, using 47 distinct NBS for a total 83 interventions across sites. Participating regions and communities will establish the Cardimed Resilience Alliance, which will function as a vehicle for the expanding network, via upscaling existing sites and adding new ones. The project expects to have 28 regions and 70 communities by 2030, creating 8000 NBS sector jobs, leveraging 450 million € in climate investments. With 5 defined replicable use cases and the aim to identify 10 more through the project, Cardimed will lead in building a resilient, sustainable future by transforming aspirations into impactful realities.

Follow CARDIMED on LinkedIn and X (Twitter) to stay in touch with project updates.

  • CORE will contribute on the refinement activities of user requirements and will develop a cloud-based orchestration middleware for efficient data handling across diverse sources, ensuring security and scalability. We will also focus our efforts on industrial symbiosis through smart water management in the HALCOR demo site, developing designs for NBS and auxiliary solutions such as Digital Twins. Our innovation team will also contribute to the overall exploitation and wider outreach of the project’s outcomes.

 

SM4RTENANCE

The Sm4rtenance project is a transformative endeavour focused on improving the manufacturing industry through data-driven predictive maintenance and dynamic asset management services. It encompasses various tasks, from harmonising embryonic data spaces to developing innovative service models such as Manufacturing Asset as a Service (MAaaS). Focusing on technical building blocks, data quality standards, digital twin technologies, and AI model development, the projects aims to revolutionise the way the manufacturing sector works. In addition, the project addresses regulatory compliance and GDPR and promotes a collaborative, cross-sector approach.

You can find out more about the project on its dedicated website, or through following our consortium on LinkedIn and X (Twitter).

  • Our team will orchestrate and execute a comprehensive commercial exploitation strategy for the consortium, involving the monitoring and planning of commercial viability through market studies and concrete partner plans, integrating the Sm4rtenance solution into various product lines, technology enhancement, academic research, and knowledge transfer within research centers. We will also be involved in collaborative net-zero operation services for asset energy efficiency & low carbon dioxide footprint, with a focus on innovative data spaces.

 

TERRAVISION

Terravision aims to revolutionise the critical raw materials value chain with its integrated Earth Observation (EO) Mining Services Platform. Supported by four innovation pillars, the Terravision platform will leverage data from the Copernicus satellite, ground radar, drone, and in-situ sensing for comprehensive monitoring. Our consortium will introduce a novel framework for processing multisensory EO data, creating an open and standardised raw material spectral library. The EO services will cater to the mining industry's critical needs, including mapping of materials, mineral exploration, extraction rates, and hazard mapping for proactive risk management. A Green & Resilience Accountability component will be developed, to ensure sustainability by quantifying environmental and socio-economic impacts throughout mining phases. Demonstrated in the EU and beyond, and validated at 6 mining sites, Terravision can pave the way for impactful systemic innovations with EU-wide significance.

  • Our team will lead the UX design and user feedback phase, employing a co-creation approach to craft a user-friendly web development tool. This component will focus on delivering a modern web tool for monitoring and analysing data, incorporating advanced technologies and visualisation techniques.

    We will also take on exploitation and innovation management activities of the project, analysing Key Exploitable Results (KERs), exploring exploitation routes, and assessing innovation potential. Intellectual Property Rights (IPRs) considerations, value proposition design, and sustainable business models for market-oriented KERs will be key activities driving our team forward. We will aim to address market uptake challenges for by analysing internal and external market barriers, developing roadmaps for commercializing KERs, and conducting competition and SWOT (strengths, weaknesses, opportunities and threats) analysis, to understand market dynamics and the competitiveness of the Terravision solution.

 

ARGUS

The Argus project aims to address challenges in monitoring remote built heritage assets, with a focus on preventive preservation. It aims to create a novel Digital Twin model for heritage, which will assist in the development of advanced digitization strategies, portable measurement systems, and AI-driven threat identification, assisting informed decision-making for the preventative preservation of heritage assets across Europe.

  • Our role in the project is to develop the Argus Decision Support System (DSS), a key component of the project that provides real-time actionable insights on risk assessment and mitigation. The DSS will leverage data collected from various sources to monitor damage thresholds and offer rich visual analytics, infused with predictive capabilities. It will also integrate external information on standards, protocols, and mitigation plans to enhance decision-making and safety measures for existing heritage assets.

 

GLAS-A-FUELS

The GlaS-A-Fuels project will focus on producing advanced biofuels, such as butanol and hydrogen, from non-land and non-food bio-wastes, to address energy security and environmental concerns.

It will employ a holistic approach, combining recyclable catalysts and a unique photonic glass reactor powered by solar energy to maximize the effectiveness of photo-amplified single-atom catalysts. This innovative process aims to achieve high catalytic performance and challenging reaction intermediates. The project leverages expertise in materials science, catalysis, laser technologies, and process control to develop efficient and sustainable production methods for these advanced biofuels, contributing to the EU's climate-neutral goals by 2050.

  • CORE Innovation Centre will have a high level of participation in the project, putting our technical, exploitation, communication and dissemination skills to use. Our engineering team will develop an intelligent software control system to explore various control theories, employing actual and virtual sensors. CORE aims to engineer the lab-scale solar reactor, by integrating it with process monitoring sensors and the control system which is embedded in an IoT-based system, leveraging different wireless technologies for high-level control and real-time monitoring.

    Our innovation team will play a key role in maximising the project's innovation potential by evaluating the potential for the development of widely marketable solutions, the readiness of the industry for innovation, and innovation management. This includes creating an innovation roadmap and a detailed exploitation plan, as well as establishing suitable Intellectual Property Rights (IPR) protection methods, based on the technologies developed by the consortium.

    Our communication team will collaborate with partners to ensure the consortium successfully reaches out to all stakeholders with its solutions and research finding. We will be leading dissemination and communication efforts, creating a distinct visual identity for the project and transmitting information using all relevant communication channels (social media, industry press, brochures, posters, newsletters, etc.). Additionally, we will hold technology transfer seminars, to present project results and facilitate integration of the Glas-A-Fuels solutions into targeted value chains, focusing on industrial trade fairs and scientific conferences.

 
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