CERBERO: Cross-layer modEl-based fRamework for multi-oBjective dEsign of reconfigurable systems in unceRtain hybRid envirOnments: Invited paper: CERBERO teams from UniSS, UniCA, IBM Research, TASE, INSA-Rennes, UPM, USI, Abinsula, AmbieSense, TNO, S&T, CRF

Proceedings of the 16th ACM International Conference on Computing Frontiers Pub Date : 2019-04-30 DOI:10.1145/3310273.3323436

F. Palumbo, Tiziana Fanni, Carlo Sau, Luca Pulina, L. Raffo, M. Masin, Evgeny Shindin, P. S. Rojas, K. Desnos, M. Pelcat, Alfonso Rodríguez, E. Juárez, F. Regazzoni, G. Meloni, Katiuscia Zedda, H. Myrhaug, Leszek Kaliciak, Joost Andriaanse, Julio A. de Oliveira Filho, Pablo Muñoz, A. Toffetti

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引用次数: 7

Abstract

Cyber-Physical Systems (CPS) are embedded computational collaborating devices, capable of sensing and controlling physical elements and, often, responding to humans. Designing and managing systems able to respond to different, concurrent requirements during operation is not straightforward, and introduce the need of proper support at design-time and run-time. The Cross-layer modEl-based fRamework for multi-oBjective dEsign of Reconfigurable systems in unceRtain hybRid envirOnments (CERBERO) EU project has developed a design environment for adaptive CPS. CERBERO approach leverages on model-based methodologies including different technologies and tools developed to cover design and operation from user interactions down to low level computing layer implementation.

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CERBERO:不确定混合环境下可重构系统多目标设计的跨层模型框架:特邀论文:来自UniSS、UniCA、IBM研究院、TASE、INSA-Rennes、UPM、USI、Abinsula、AmbieSense、TNO、S&T、CRF的CERBERO团队

信息物理系统(CPS)是嵌入式计算协作设备，能够感知和控制物理元素，并且通常对人类做出响应。设计和管理能够在运行期间响应不同的并发需求的系统并不简单，并且需要在设计时和运行时提供适当的支持。欧盟“不确定混合环境下可重构系统多目标设计跨层模型框架”(CERBERO)项目开发了一种自适应CPS设计环境。CERBERO方法利用基于模型的方法，包括开发的不同技术和工具，涵盖从用户交互到低层计算层实现的设计和操作。

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Proceedings of the 16th ACM International Conference on Computing Frontiers

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