Descripción del proyecto
Nuevo método holístico y sensible de los sistemas ciberfísicos
El software nos rodea, desde las redes inteligentes hasta la robótica y la fabricación inteligente. Los sistemas ciberfísicos (CPS) incorporan software en el mundo físico. El proyecto CPSoSaware, financiado con fondos europeos, desarrolla un método holístico e innovador. Respecto a las pruebas en la industria manufacturera y con vehículos semiautónomos conectados, el proyecto diseñará nuevos modelos y herramientas de software para asignar la potencia y los recursos computacionales a los dispositivos finales CPS del sistema, mediante la determinación y la generación de forma autónoma de los procesos ciberfísicos que serán manejados por el componente heterogéneo de un dispositivo (núcleos de procesador, unidades de procesamiento gráfico o GPU, matriz de puertas programable «in situ» o FPGA, pilas de software). Al hacer el máximo uso de la inteligencia artificial para aumentar la fiabilidad, la tolerancia a los fallos y la seguridad a nivel de sistema, el sistema CPSoSaware también interactuará con los usuarios humanos a través de interfaces visuales y táctiles de realidad extendida.
Objetivo
Cyber-physical Systems of Systems (CPSoS) are large complex systems where physical elements interact with and are controlled by a large number of distributed and networked computing elements and human users. Their increasingly stringent demands on reduction of emissions, efficient use of resources, high service and product quality levels and, of course low cost and competitiveness on the world market introduce big challenges related to the design operation continuum of dependable connected CPSs. CPSoSaware project aims at developing the models and software tools to allocate computational power/resources to the CPS end devices of the System by determining and generating autonomously what cyber-physical processes will be handled by a device’s heterogeneous component (processor cores, GPUs, FPGA fabric, software stacks). The CPSoSaware solution will rely on Artificial Intelligence support in order to strengthen reliability, fault tolerance and security at system level but also will be able to lead to CPS designs that work in a decentralized way, collaboratively, in an equilibrium, by sharing tasks and data with minimal central intervention. Also, the CPSaware system will interact with the human users/operators through extended reality visual and touchable interfaces increasing situational awareness. The CPSoSaware system will be evaluated : i) in the automotive sector, in mixed traffic environments with semi autonomous connected vehicles proactively passing the dynamic driving task back to the human driver, whenever system limits are approached and ii) in the manufacturing industry we consider inspection and repair scenarios using collaborative robots passing the control tasks to the operator, in critical situations. The impact of such a holistic and and innovative approach is huge and the foundations laid here are expected to result in a widespread adoption of CPSoS in a larger number technology sectors.
Ámbito científico
- natural sciencescomputer and information sciencesartificial intelligence
- natural sciencescomputer and information sciencessoftware
- engineering and technologymechanical engineeringvehicle engineeringautomotive engineering
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringrobotics
- engineering and technologyenvironmental engineeringenergy and fuels
Palabras clave
Programa(s)
Tema(s)
Convocatoria de propuestas
Consulte otros proyectos de esta convocatoriaConvocatoria de subcontratación
H2020-ICT-2019-2
Régimen de financiación
RIA - Research and Innovation actionCoordinador
151 25 Maroussi
Grecia