Observatorio de I+D+i UPM

Memorias de investigación
Research Project:
CROSS-LAYER MODEL-BASED FRAMEWORK FOR MULTI-OBJECTIVE DESIGN OF RECONFIGURABLE SYSTEMS IN UNCERTAIN HYBRID ENVIRONMENTS
Year:2017
Research Areas
  • Electronic technology and of the communications
Information
Abstract
ICT is embedded and pervasive into our daily lives. The notion of Cyber Physical Systems (CPS) has emerged: embedded computational collaborating devices, capable of controlling physical elements and responding to humans. The Cross-layer modEl-based fRamework for multi-oBjective dEsign of Reconfigurable systems in unceRtain hybRid envirOnments (CERBERO) project aims at developing a design environment for CPS based of two pillars: a cross-layer model based approach to describe, optimize, and analyze the system and all its different views concurrently; an advanced adaptivity support based on a multi-layer autonomous engine. To overcome the limit of current tools, CERBERO provides: libraries of generic Key Performance Indicators for reconfigurable CPSs in hybrid/uncertain environments; novel formal and simulation-based methods; a continuous design environment guaranteeing early-stage analysis and optimization of functional and non-functional requirements, including energy, reliability and security. CERBERO effectiveness will be assessed in challenging and diverse scenarios, brought by industrial leaders: an embedded CPS with self-healing capabilities for planetary explorations (TASE-S&T), an ocean monitoring CPSoS (AS), and a Smart Travelling CPSoS for Electric Vehicle (TNO-CRF-S&T). CERBERO will automate multi-objective decisions to meet requirements and correct/optimized?by?construction designs. Interoperable components (i.e. DynAA by TNO, AOW by IBM, PREESM by INSA, PAPI-ARTICo3 by UPM, MDC by UniCA-UniSS) will be enhanced with additional features (as security, USI), mostly released as open-source to foster open innovation and a real path to standardisation, and integrated (IBM- AI) into a unique framework. Design speed up (one order of magnitude), increased performance (30% less energy) and reduced costs of deployment (by rapid prototyping and system in the loop incremental design) and maintenance (by runtime verification and adaptivity) of CPSoS are expected.
International
Si
Project type
Proyectos y convenios en convocatorias públicas competitivas
Company
Comisión Europea
Entity Nationality
Sin nacionalidad
Entity size
Desconocido
Granting date
31/10/2016
Participants
  • Director: Eduardo Juarez Martinez (UPM)
  • Participante: Ruben Salvador Perea (UPM)
  • Participante: Miguel Chavarrias Lapastora (UPM)
  • Participante: Matias Javier Garrido Gonzalez (UPM)
  • Participante: Angel Manuel Groba Gonzalez (UPM)
  • Participante: Pedro Jose Lobo Perea (UPM)
  • Participante: Juan Manuel Meneses Chaus (UPM)
  • Participante: Fernando Pescador Del Oso (UPM)
  • Participante: Cesar Sanz Alvaro (UPM)
Research Group, Departaments and Institutes related
  • Creador: Grupo de Investigación: Grupo de Diseño Electrónico y Microelectrónico
  • Centro o Instituto I+D+i: Centro de Investigación en Tecnologías del Software y Sistemas Multimedia para la Sostenibilidad (CITSEM)
  • Departamento: Ingeniería Telemática y Electrónica
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