Track 3 – Real-Time (and Networked) Embedded Systems

Track Program Committee

► S. Altmeyer, University of Amsterdam
► E. Armengaud, AVL List GmbH
► M. Ashjaei, Mälardalen University
► K. Bletsas, Polytechnic Institute of Porto
► A. Casimiro, University of Lisbon
► L. Cucu-Grosjean, INRIA
► H. Doran, UAS Winterthur
► P. Eles, University of Linkoping
► W. Elmenreich, Alpen-Adria-Universität
► M. Götz, Federal University of Rio Grande do Sul
► I. Lakatos, Széchenyi István University Gyoer
► A. Mifdaoui, University of Toulouse
► S. Mubeen, Mälardalen University
► A. Papadopoulos, Mälardalen University
► R. Passerone, University of Trento
► C. Passerone, University of Torino
► L.M. Pinho, Polytechnic Institute of Porto
► F. Praus, UAS Technikum Wien
► I. Puaut, IRISA
► D. Quaglia, Università di Verona
► J.L. Scharbarg, Université de Toulouse
► F. Singhoff, University of Brest
► M. Sjodin, Mälardalen University
► P. Souto, University of Porto
► A. Steininger, Technical University Wien
► M. Wehrmeister, Federal University of Parana

Track co-chairs

Luis Almeida
Universidade do Porto, Portugal
lda@fe.up.pt
Martin Horauer
UAS Technikum Wien, Austria
horauer@technikum-wien.at

Download the Track CfP

Focus: Industry is increasingly permeated with embedded systems involved in complex functionality, distributed intelligence and adaptive behaviour. Some of these features are deployed locally exploiting new powerful computing architectures while other are offloaded to peripheric or remote computing centres through ubiquitous connectivity and global networks. This track focuses on the challenges that arise from designing these systems, particularly given real-time, power, reliability, available resources and other constraints.

Topics:

  • Application and Platform models: Real-Time Computing; Real-Time and Embedded Operating Systems and Communications; Networked and Distributed Embedded Systems; Multi/Many-Core Embedded Systems; Wireless Sensor (and Actuator) Networks; Cyber Physical Systems; Industrial Internet-of-Things; Integration with Cloud/Fog/Edge Computing.
  • Design, Analysis and Deployment methods: Design Tools, Flows and Methodologies; Hardware/Software Co-Design; Components, Platforms and Re-Use; Synthesis and Code-Generation; Formal Methods; Verification and Validation; Data Integration and Fusion; Quality of Service; Timing and Schedulability Analysis.
  • Architectures and System-wide issues: Distributed and System-on-Chip Architectures; Reconfigurable Real-Time Systems; Context-Aware and Self-Organizing Systems; Mixed-Criticality Real-Time Systems; Reliable and Fault-Tolerant Real-Time Systems; Energy and Performance Optimization.




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