SIES 2012

July 20-22, 2012      Karlsruhe, Germany organised with Artist partners 

SIES 2012

The event comes after the three previous successful editions of the IEEE Symposium on Industrial Embedded Systems which were held respectively in Antibes Juan-Les-Pins (France, SIES2006), Lisbon (Portugal, SIES2007), La Grande Motte (France, SIES2008), Lausanne (Switzerland, SIES2009), Trento (Italy, 2010), and Västerås (Sweden, 2011).

Application domains have had a considerable impact on the evolution of embedded systems, in terms of required methodologies and supporting tools and resulting technologies. SoCs are slowly making inroads in to the area of industrial automation to implement complex field-area intelligent devices which integrate the intelligent sensor/actuator functionality by providing on-chip signal conversion, data processing, and communication functions. There is a growing tendency to network field-area intelligent devices around industrial type of communication networks. Similar trends appear in the automotive electronic systems where the Electronic Control Units (ECUs), typically implemented as heterogeneous system-on-chip, are networked by means of one of safety-critical communication protocols such as FlexRay, for instance, for the purpose of controlling one of vehicle functions; electronic engine control, ABS, active suspension, etc. The design of this kind of networked embedded systems (this includes also hard real-time industrial control systems) is a challenge in itself due to the distributed nature of processing elements, sharing common communication medium, and safety-critical requirements, to mention some.


The aim of the symposium is to bring together researchers and practitioners from industry and academia and provide them with a platform to report on recent developments, deployments, technology trends and research results, as well as initiatives related to embedded systems and their applications in a variety of industrial environments.

Topics within the scope of the workshop will include, but are not limited to:
  • Embedded Systems: Design and Validation of Embedded Systems; Real-Time Issues; Models of Embedded Computation; Design and Verification Languages; Operating Systems and Quasi-Static Scheduling; Timing and Performance Analysis; Power Aware Embedded Computing; Adaptive Embedded Systems; Security in Embedded Systems
  • System-on-Chip and Network-on-Chip Design & Testing: Design of Application-Specific Instruction-Set Processors; Design and Programming of Embedded Multiprocessors; SoC Communication and Architectures; NoC Communication and Architectures; Design of SoC/NoC; Platform-Based Design for Embedded Systems; Reconfigurable Platforms; Multiprocessor SoC Platforms and Tools; Testing of Embedded Core-based Integrated Circuits.
  • Networked Embedded Systems: Design Issues for Networked Embedded; Middleware Design and Implementation for Networked Embedded Systems; Self Adaptive Networked Entity Sensor Networks: Architectures, Energy-Efficient Medium Access Control, Time Synchronization Issues, Distributed Localization Algorithms, Routing, Distributed Signal Processing, Security.
  • Embedded Applications: Industrial Automation and Controls; Automotive Applications; Industrial Building Automation and Control; Power (sub-) Station Automation and Control; Intelligent Sensors, etc. – design, maintenance, fault tolerance & dependability, networks, infrastructure, safety and security.

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