- Advanced manufacturing
- Energy and Sustainability
- Food Industry
- Mobility and transport
- New materials
The main objective of CRUSOE is to integrate the cybersecurity requirements when developing technologies associated with cooperative, connected and automated mobility.
The main objective of the MAINGAP project is to accelerate the implementation of cutting-edge technological solutions to respond to the great challenges that may emerge as we move towards Industry 4.0 in the Euroregion.
RECONTRANS – Integrated manufacturing of REciclable hybrid metalthermoplastic Composites for the TRANSportATIGA
The RECOTRANS project will create a new manufacturing system in which multi-material metal composites suitable for the transport industry (automotive, goods transportation and rail) are obtained.
The main challenge of PERSIST is to improve the quality of life of breast and colorectal cancer survivors. Using Artificial Intelligence and Big Data technologies, experts will develop an innovative ecosystem that supports the physicians' decision-making processes, thereby contributing to optimal treatment decisions.
ComMUnion – Net-Shape Joining Technology to Manufacture 3D Multi-Materials Components Based on Metal Alloys and Thermoplastic Composites.ATIGA
The aim of the ComMUnion project, led by AIMEN is to develop a robotised system for manufacturing 3D metal/thermoplastic carbon fibre composite multi-material components
PHENOmenon is an innovative European project, led by AIMEN, which looks to develop new technology that can be used to manufacture affordable, made-to-measure, optical and holographic products, which will be used for high-efficiency lighting, security, aerospace equipment and 3D visualisation.
INTEGRADDE – Intelligent Data-Driven Pipeline for the Manufacturing of Certified Metal Parts Through Direct Energy Deposition Processes.ATIGA
AIMEN leads the INTEGRADDE project, which is formed by a consortium of 26 partners from 11 countries. This initiative pursues one of the European Commission's ....
S3FOOD – Smart Sensor Systems for Food Safety, Quality Control and Resource Efficiency in the Food Processing IndustryATIGA
S3FOOD aims to facilitate the digitalisation of the agri-food industry, by promoting the incorporation of smart sensors in the production processes to generate digital data that can be processed using big data and artificial intelligence.
AIRUS “Automatic Intelligent Services for U-Space” is the Joint Research Unit (JRU) in which we have joined forces with the multinational technological firm, Everis ADS, to develop a safe and efficient drone traffic management system for the thousands of drones that operate in any geographic area, including cities, and which share airspace with manned aircrafts.
In the year 2050, 68% of the population will live in urban areas, and there will be great potential for remotely piloted aircraft systems (unmanned aerial vehicles) to create new transportation paradigms. Achieving the efficient, sustainable, affordable and effective mobility of people and goods is an area with many technological challenges that we must overcome.
The SpecTuna project “Automated modular system for cutting and classifying frozen tuna using hyperspectral characterisation”, will combine different technologies, such as advanced robotics and hyperspectral vision technology to automate the processes for the positioning, cutting and classification of frozen tuna.
The Hi-Bio 4.0 project, “Hybridisation of biotechnology and 4.0 tools in the agri-food industry for the accelerated development of new formulations”, looks to develop a modelling platform to facilitate, shorten and optimise the biotechnological processes involved in producing a food product to achieve greater efficiency and higher-quality products.
ECOplast – Research in new biomass-based composites from renewable resources with better properties for vehicle parts mouldingmundinova
The main objective of the ECOplast project is the development of new biocompounds based on biopolymers as a base matrix, reinforced with natural fibres, nanofillers, fillers and mineral additives.
The main objective of the Mixed Unit of Renewable Gas was to increase the knowledge in the production processes of biomethane (Renewable Gas) in the sector of urban and food industries Waste Water Treatment Stations (WWTS), focusing especially on the injection into the grid of this biomethane.