Proyectos Europeos e Internacionales
European Non-Line-of-Sight Optical Imaging
ENLIGHTEN will seek to develop next-generation electro-optical (EO) sensing devices for operational effectiveness.

AN AI ON-DEMAND PLATFORM TO SUPPORT RESEARCH EXCELLENCE IN EUROPE
The rapid advancement of AI technologies has led the EU to decide on hosting a research environment focused on scientific and ethical excellence, which grows with the cooperation of members from within the EU and the assistance of academia and industry. The EU-funded AI4EUROPE project, in collaboration with AI4EU and other related projects, aims to develop this space by introducing an unbiased, open and cooperative platform from and for the European research community for excellent studies of AI. This platform will provide services ranging from data access, services and tools to cooperation with other researchers. The project will also enable a business model for guaranteeing its continued operation.

Individual and Collective Migration of Immune Cellular Systems
El objetivo de ICoMICS es desarrollar una novedosa plataforma de simulación virtual para investigar cómo las células inmunitarias terapéuticas (TIC) detectan, se mueven e interactúan con las células cancerosas y con el microambiente tumoral.

Physical Cognition for Intelligent Control and Safe Human-Robot Interaction
La digitalización de la industria depende del éxito de la integración de los trabajadores con los robots. También resulta importante utilizar robots capaces de ejecutar operaciones seguras con tiempos y costes mínimos de preparación de los robots y aumentar la flexibilidad de la configuración de los talleres. En el proyecto Sestosenso, financiado con fondos europeos, se desarrollará una nueva tecnología de detección, desde el soporte físico hasta los niveles de percepción cognitiva y control, para las próximas generaciones de robots colaborativos. La tecnología se basa en sensores táctiles y de proximidad integrados en el cuerpo del robot a fin de proporcionar una percepción táctil unificada del entorno, controlando así las acciones e interacciones del robot de forma segura y autónoma. El equipo de Sestosenso realizará tres demostraciones industriales en los ámbitos de la automovilística, la logística y la agricultura.
Computational biomechanics and bioengineering 3d printing to develop a personalised regenerative biological ventricular assist device to provide lasting functional support to damaged hearts
BRAV3 desarrollará un dispositivo biológico duradero capaz de bombear junto con un corazón dañado mediante el diseño de un tejido regenerador a partir de biomateriales, células madre y el modelado informático avanzado con diseños imprimibles en 3D

Accelerating Innovation in Microfabricated Medical Devices
El objetivo general de Moore4Medical es acelerar la innovación en dispositivos médicos electrónicos.

Zero Energy Habitable Mobile Modules in Europe
Construcción de un módulo habitable autosuficiente energéticamente a base de contenedores de 20 pies y alimentado con hidrógeno producido con energías limpias para construir bases de los ejércitos europeos. Será modular y desmontable y permitirá comenzar un proceso de descarbonización de las fuerzas armadas europeas.

DIGItal MANufacturing Technologies for Zero-defect Industry 4.0 Production
The EU-funded DIGIMAN4.0 project will provide excellent research training to 15 early-stage researchers in digital manufacturing technologies for Industry 4.0 production.

Real-Time Mapping from Endoscopic Video
Mapping of regions of importance is fundamental to interact with the environment, from satellite maps of glaciers to functional maps for GPS navigators. Autonomous vehicles also work by matching visual data to an existing map which needs to be constantly updated and extended. Now,
EndoMapper is developing a similar mapping system to support endoscopic procedures like colonoscopy, tumour biopsy, or even targeted drug delivery. To accomplish their world-first, the team must tackle the challenge of modelling non-rigidity. Unlike roads and byways, the body's
tissues and organs are prone to change as the endoscope moves. Taking advantage of new non-rigid mathematical models and machine learning, endoscopy may soon enter the realm of augmented virtual reality and autonomous navigation.
EndoMapper is developing a similar mapping system to support endoscopic procedures like colonoscopy, tumour biopsy, or even targeted drug delivery. To accomplish their world-first, the team must tackle the challenge of modelling non-rigidity. Unlike roads and byways, the body's
tissues and organs are prone to change as the endoscope moves. Taking advantage of new non-rigid mathematical models and machine learning, endoscopy may soon enter the realm of augmented virtual reality and autonomous navigation.

Historial Proyectos Europeos e Internacionales
Título | Subtítulo | Tipo | Año finalización Ordenar ascendente |
---|---|---|---|
PRIME | Advanced and versatile PRInting platform for the next generation of active Microfluidic dEvices | Horizon 2020 | |
CHAMELEON | Intuitive editing of visual appearance from real-world datasets | Horizon 2020 | |
PRIMAGE | PRedictive In-silico Multiscale Analytics to support cancer personalized diaGnosis and prognosis, Empowered by imaging biomarkers | Horizon 2020 | |
Pret-a-LLOD | Ready-to-use Multilingual Linked Language Data for Knowledge Services across Sectors | Horizon 2020 | |
MODELAGE | Is your heart aging well? A systems biology approach to characterize cardiac aging from the cell to the body surface | Horizon 2020 | |
CISTEM | "Heart On chip" basado en tecnología de células madre pluripotentes inducidas para medicina personalizada | Horizon 2020 | |
CoMManDIA | Robótica móvil colaborativa de objetos deformables en aplicaciones industriales | Otros UE | |
POSITION-II | Pilot-line for System in Tip Integration | Horizon 2020 | |
CURABONE | Predictive models and simulations in bone regeneration: a multiscale patient-specific approach | Horizon 2020 |