{"id":10144,"date":"2025-04-30T11:30:43","date_gmt":"2025-04-30T09:30:43","guid":{"rendered":"https:\/\/pruebas.clares.eu\/?post_type=proyectos&p=10144"},"modified":"2025-05-05T09:03:29","modified_gmt":"2025-05-05T07:03:29","slug":"casandra","status":"publish","type":"proyectos","link":"https:\/\/pruebas.clares.eu\/en\/proyectos\/casandra\/","title":{"rendered":"CASANDRA"},"content":{"rendered":"\n

Driving the adoption of data flows in the supply chain by integrating intelligent and decentralized control for large-part manufacturing<\/p>\n\n\n\n

CASANDRA<\/strong><\/p>\n\n\n\n

(EXP – 00169779 \/ MIG-20242031<\/em>)<\/strong><\/p>\n\n\n\n

Europe leads the manufacturing of complex, large-scale components. In Spain, the metalworking sector is also booming, with significant growth (>8%) in recent years. This privileged competitive position is supported by the quality of the manufactured products, their characteristics, high level of customization, efficiency, and associated lifecycle services. However, compliance with increasingly stringent regulations, high quality requirements, and product complexity are reaching the limits of existing technologies, threatening competitiveness in the sector and its current privileged position. CASANDRA was created to address these challenges.
The main objective of the CASANDRA project is to develop a closed-loop digital manufacturing methodology that enables the concepts of a connected, smart, and autonomous factory, allowing the evolution of the digital twin of the component to be manufactured to be recorded throughout its lifecycle. This requires distributed monitoring and control tools, following a distributed data space model.
At the factory level, CASANDRA proposes the development of flexible, ubiquitous, and connected digital tools (collaborative robotics, AR\/VR, and exoskeletons), designed to extend operator capabilities and increase efficiency, quality, and precision in the execution of the required manufacturing processes.
Monitoring and control tools, combined with cross-functional digital tools, pave the way for the implementation of data analysis strategies that allow the collected data to be exploited. This allows CASANDRA to implement an autonomous factory concept through a decision support system in which, based on the live data collected, strategies are developed to adjust processes and continuously adapt to changing conditions and the degradation of physical models. This involves working on edge intelligence, federated learning, and frugal AI, combining active learning and XAI.<\/p>\n\n\n\n

To this end, CASANDRA aims to achieve the following technical objectives:<\/p>\n\n\n\n

    \n
  1. Implement a modular and hierarchical digital thread that drives data interoperability throughout the value chain to improve traceability, efficiency, and quality in the manufacturing and assembly of large parts.
    Digital platform and middleware, digital thread, knowledge representation.<\/li>\n\n\n\n
  2. Implement worker-centric tools that assist in the execution of labor-intensive tasks while preserving their knowledge and skills.
    \uf0a7 Co-working robotics, VR\/AR, user experience optimization.<\/li>\n\n\n\n
  3. Implement data-driven decision support models for more efficient and sustainable autonomous manufacturing through the integration of product, process, and resource (PPR) digital twins.
    \uf0a7 Digital twins, \u201cQuality by design\u201d manufacturing strategy, defect detection.<\/li>\n\n\n\n
  4. Implement data-driven models to advance the development of a comprehensive decision support system, moving toward more efficient and sustainable autonomous manufacturing.
    \uf0a7 Edge intelligence, Frugal AI, federated learning, Decision Support System (DSS), and explainable AI (XAI).<\/li>\n\n\n\n
  5. Demonstrate the CASANDRA approach to improve the quality, efficiency, and control of manufacturing process integration and traceability throughout the supply chain (TRL6), fostering the exploitation of results and their future adoption.
    \uf0a7 Demonstrator in energy and naval.
    \uf0a7 XL Pilot Factory: training, communication, and dissemination.<\/li>\n<\/ol>\n\n\n\n

    CASANDRA is made up of two consortia, a consortium of companies (CDTI group), and a consortium of centers (AEI) made up of the following members,<\/p>\n\n\n\n

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    DGH<\/strong>\u2013 Empresa espa\u00f1ola ubicada en el Parque Tecnol\u00f3gico de Boecillo (Valladolid) especializada en ingenier\u00eda y mantenimiento industrial. Con m\u00e1s de 40 a\u00f1os de experiencia, DGH se destaca en el dise\u00f1o, construcci\u00f3n y puesta en marcha de soluciones automatizadas y robotizadas para diversos sectores industriales. Es un referente en la industria de automoci\u00f3n y ha ampliado su actividad a sectores como aeron\u00e1utica, construcci\u00f3n y alimentaci\u00f3n. Empresa innovadora con participaci\u00f3n en programas de innovaci\u00f3n tanto nacionales como europeos.<\/p>\n\n\n\n

    IDESA<\/strong> \u2013 Fundada en 1993, y sede en Asturias, se ha convertido en una de las empresas m\u00e1s reconocidas y respetadas en dise\u00f1o, fabricaci\u00f3n y suministro de equipos est\u00e1ticos y modulares en todo el mundo para el sector energ\u00e9tico, especializada en componentes de grandes dimensiones y con altos est\u00e1ndares de calidad, tales como c\u00e1maras de coque, columnas de vac\u00edo, columnas fraccionadoras, reactores y unidades FCC y FCK; as\u00ed como todo tipo de tanques de almacenamiento y equipos de proceso.<\/p>\n\n\n\n

    ONS <\/strong>\u2013 Es una empresa fundada en 2010 con sede en Madrid, que se especializa en soluciones de gesti\u00f3n de infraestructura en la nube y virtualizaci\u00f3n. La compa\u00f1\u00eda se dedica al desarrollo y soporte de OpenNebula una plataforma de c\u00f3digo abierto que permite la implementaci\u00f3n y administraci\u00f3n de entornos de cloud computing y centros de datos virtualizados.<\/p>\n\n\n\n

    NODOSA<\/strong> \u2013 NODOSA SHIPYARD es una empresa espa\u00f1ola, con sede en Galicia, l\u00edder en el sector naval. Especializada en la construcci\u00f3n, reparaci\u00f3n y mantenimiento de buques, cuenta con m\u00e1s de cinco d\u00e9cadas de experiencia y se ha consolidado como un referente tanto a nivel nacional como internacional, destac\u00e1ndose por su capacidad de innovaci\u00f3n, calidad y compromiso con la excelencia.<\/p>\n\n\n\n

    ARSOFT<\/strong> \u2013 Empresa tecnol\u00f3gica espa\u00f1ola enfocada en el desarrollo de sistemas de Realidad Aumentada y virtual (AR&VR) para el sector industrial, transformado los tradicionales procesos de producci\u00f3n en procesos de producci\u00f3n inteligentes.<\/p>\n\n\n\n

    ARSOFT ha desarrollado su propia plataforma de authoring (Eyeflow) para la digitalizaci\u00f3n de procesos industriales con tecnolog\u00edas de realidad mixta (XR), alcanzando acuerdos con grandes empresas l\u00edderes en su sector.<\/p>\n\n\n\n

    TRIMEK<\/strong> \u2013 Empresa fundada en 1993 en Altube (\u00c1lava), centra su actividad en el \u00e1rea de la ingenier\u00eda metrol\u00f3gica dimensional, desarrollando sistemas de medici\u00f3n como M\u00e1quinas de Medici\u00f3n por Coordenadas (MMCs), sistemas de escaneado 3D, plataformas inform\u00e1ticas de gesti\u00f3n metrol\u00f3gica para diferentes sectores industriales, tales como automoci\u00f3n, aeron\u00e1utica, naval, energ\u00eda, transporte o m\u00e1quina herramienta.<\/p>\n\n\n\n

    GOGOA<\/strong> \u2013 PYME constituida en 2015, con sede en Abadi\u00f1o (Bizkaia), dedicada al dise\u00f1o, fabricaci\u00f3n y comercializaci\u00f3n de exoesqueletos para mejora de las capacidades f\u00edsicas de las personas. Con una de las gamas de productos m\u00e1s amplias del mercado y una s\u00f3lida cartera de propiedad intelectual fruto de su sostenida apuesta por la I+D+i, dispone de soluciones para el mercado cl\u00ednico, industrial, militar y deportivo.<\/p>\n\n\n\n

    NVISION<\/strong> \u2013 Empresa tecnol\u00f3gica especializada en llevar al mercado soluciones innovadoras basadas en Internet de las cosas (IoT), que combinan tecnolog\u00edas como la Inteligencia Artificial (IA), el an\u00e1lisis de datos (Big data, data analytics) y la computaci\u00f3n en el Edge, para proporcionar servicios orientados a la monitorizaci\u00f3n y gesti\u00f3n avanzada de sistemas, incluyendo desarrollo de herramientas de soporte a las decisi\u00f3n y gemelos digitales aplicables a distintos sectores.<\/p>\n\n\n\n

    A Consortium of centers, (AEI group),<\/p>\n\n\n\n

    \n
    \"\"<\/figure>\n<\/figure>\n\n\n\n

    AIMEN<\/strong> \u2013 The AIMEN Technology Center is a multi-sector innovation and technology center with 58 years of history that has established itself as a national benchmark in R&D and the provision of technological services in key areas such as materials, advanced manufacturing processes, digitalization, and sustainability.
    Our areas of expertise include manufacturing technologies such as joining technologies, laser technologies, additive manufacturing, and composite materials processing, as well as cross-cutting technologies such as robotics, sensors and monitoring, and artificial intelligence that facilitate the digitalization of industrial processes.
    The ultimate goal is to transfer the developed technologies to industry to transform current factories into smart factories that are more efficient, sustainable, and globally competitive. <\/p>\n\n\n\n

    IRI<\/strong> \u2013 The Institute of Robotics and Industrial Computing is a joint university institute belonging to the Spanish National Research Council (CSIC) and the Polytechnic University of Catalonia (UPC), founded in 1995. It is one of the leaders in robotics and computer vision research in Spain, given the volume and quality of its scientific output and its significant presence in European R&D projects with various international partners. The center offers excellence and technological capabilities in various fields of robotics, computer vision, artificial intelligence, and automatic control, among others.<\/p>\n\n\n\n

    CDEI-UPC <\/strong>\u2013 The Polytechnic University of Catalonia (UPC) is an internationally recognized higher education institution focused on engineering, architecture, applied sciences, and technology. It stands out for its leadership in research and technology transfer, positioning it as a benchmark in both the academic and business fields. The CDEI-UPC, the Center for Industrial Equipment Design, specializes in the development of industrial products and equipment, dynamic analysis of complex systems, and mobile robotics, collaborating closely with national and international companies to innovate in the design and optimization of industrial equipment.<\/p>\n\n\n\n

    CITIC-UDC <\/strong>– CITIC is a research center that promotes progress and excellence in R&D&I applied to ICT, created in 2008 by the University of A Coru\u00f1a. The center’s scientific activity is structured into four main research areas: Artificial Intelligence; Data Science and Engineering; High-Performance Computing; and Smart Networks and Services, and a cross-cutting research area: Cybersecurity.
    CITIC is accredited as a Center of Excellence and a member of the CIGUS Network for the period 2024-2027. The accreditation, structuring, and improvement of the CITIC is co-financed by the Xunta de Galicia (Government of Galicia) and 60% by the European Union within the framework of the Galicia 2021-2027 ERDF Operational Program, with the thematic objective of promoting “a smarter Europe: innovative and intelligent economic transformation.”<\/p>\n\n\n\n

    INNOVALIA <\/strong>– The Innovalia Association is an R&D&I business unit and member of the Basque Science and Technology Network and Technology Center founded in 2002 by a group of technology SMEs with an international presence. This private research laboratory was created by the INNOVALIA group to form a solid foundation for achieving its long-term strategic research objectives.
    INNOVALIA identifies and develops talent within collaborating companies, forming multidisciplinary teams to achieve long-term research objectives and meet the demand for advanced technological capabilities and transnational cooperation.<\/p>\n\n\n\n

    FUNDING:<\/p>\n\n\n\n

    Research project MIG-20242031 funded by:<\/p>\n\n\n\n

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    Subsidized by CDTI<\/p>\n\n\n\n

    Research project MIG-20242031 funded by:<\/p>\n\n\n\n

    \"\"<\/figure>\n\n\n\n

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