SANCS 2015
Date: Sep 07, 2015 1:00 am – Sep 07, 2015 10:00 am
Location: Dubrovnik/Cavtat, Croatia
1st International Workshop on Software Architectures for Next-generation Cyber-physical Systems (SANCS 2015)
co-located with the 9th European Conference on Software Architecture (ECSA 2015)
Cyber-physical systems (CPS) is a fast growing area because of application domains such as automotive, healthcare, smart grids, or industrial automation. Traditional cyber-physical systems usually consisted of one dedicated function programmed by domain experts (e.g., electrical engineering), whose implementation contains few thousands lines of code.
Over the last 50 years, the hardware of CPS has become much more capable (e.g., multi-core CPUs) and new requirements have emerged such as Internet connectivity, autonomous behavior, or user-friendly interfaces. This has led to an enormous growth of both the volume and complexity of CPS software, which can reach several million lines of highly interrelated code. To efficiently maintain such a large amount of code, a proper software architecture must be in place that supports quality attributes such as maintainability, modifiability, or reusability.
Cyber-physical systems need software architecture at the system level as well as at the level of individual processing nodes, thus encompassing both, for example, solutions for adaptive collaboration and orchestration and for efficient use of modern heterogeneous hardware platforms. CPS also face the challenge of large amounts of legacy software that must evolve onto new platforms with new architectures. Whereas many architectural patterns are applicable to cyber-physical systems (e.g., component-based architecture), some are not directly applicable, and novel patterns may be required.
The goal of the SANCS workshop is to gather researchers and practitioners in the area of software architecture for cyber-physical systems to share opinions, identify key challenges and propose solutions. The workshop aims at addressing how the new trends affect the traditional architecture styles of embedded systems, as well as the challenges introduced by the complexity of the systems to come.
Topics
Topics of interest include, but are not limited to, the following:
- Component- and model-based CPS architectures
- Architectural decisions and decision support for CPS development
- Architectural quality attributes and architecture-level analysis of e.g. timing or resource usage
- Virtualization of computation and communication resources
- Architecture evolution, maintenance and reengineering of CPS
- Architecture-based security measures
- Architecture documentation for CPS
- Architectural support for scalable parallel systems
- Service-oriented architecture for CPS
- Architectural Knowledge Management
Organizers
- Manuel Oriol ABB Corporate Research Switzerland
- Jan Carlson Mälardalen University Sweden
- Michael Wahler ABB Corporate Research Switzerland
Program Committee
- Jakob Axelsson, Sweden
- Moris Behnam, Sweden
- Etienne Borde, France
- Barbora Buhnova, Czech Republic
- Tomas Bures, Czech Republic
- Ivica Crnkovic, Sweden
- Leandro Indrusiak, United Kingdom
- Frédéric Loiret, Germany
- Matthias Meyer, Germany
- Aurelien Monot, Switzerland
- Henry Muccini, Italy
- Luis Miguel Pinho, Portugal
- Franz Josef Rammig, Germany
- Romain Rouvoy, France
- Thanikesavan Sivanthi, Switzerland
- Mikael Sjödin, Sweden
- Jan Vitek, USA
- Olaf Zimmermann, Switzerland
SANCS’15 Webpage
http://www.mrtc.mdh.se/SANCS15
LinkedIn Group
https://www.linkedin.com/groups?gid=8261511
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1st International Workshop on Software Architectures for Next-generation Cyber-physical Systems (SANCS 2015)
co-located with the 9th European Conference on Software Architecture (ECSA 2015)
Cyber-physical systems (CPS) is a fast growing area because of application domains such as automotive, healthcare, smart grids, or industrial automation. Traditional cyber-physical systems usually consisted of one dedicated function programmed by domain experts (e.g., electrical engineering), whose implementation contains few thousands lines of code.
Over the last 50 years, the hardware of CPS has become much more capable (e.g., multi-core CPUs) and new requirements have emerged such as Internet connectivity, autonomous behavior, or user-friendly interfaces. This has led to an enormous growth of both the volume and complexity of CPS software, which can reach several million lines of highly interrelated code. To efficiently maintain such a large amount of code, a proper software architecture must be in place that supports quality attributes such as maintainability, modifiability, or reusability.
Cyber-physical systems need software architecture at the system level as well as at the level of individual processing nodes, thus encompassing both, for example, solutions for adaptive collaboration and orchestration and for efficient use of modern heterogeneous hardware platforms. CPS also face the challenge of large amounts of legacy software that must evolve onto new platforms with new architectures. Whereas many architectural patterns are applicable to cyber-physical systems (e.g., component-based architecture), some are not directly applicable, and novel patterns may be required.
The goal of the SANCS workshop is to gather researchers and practitioners in the area of software architecture for cyber-physical systems to share opinions, identify key challenges and propose solutions. The workshop aims at addressing how the new trends affect the traditional architecture styles of embedded systems, as well as the challenges introduced by the complexity of the systems to come.
Topics
Topics of interest include, but are not limited to, the following:
- Component- and model-based CPS architectures
- Architectural decisions and decision support for CPS development
- Architectural quality attributes and architecture-level analysis of e.g. timing or resource usage
- Virtualization of computation and communication resources
- Architecture evolution, maintenance and reengineering of CPS
- Architecture-based security measures
- Architecture documentation for CPS
- Architectural support for scalable parallel systems
- Service-oriented architecture for CPS
- Architectural Knowledge Management
Organizers
- Manuel Oriol ABB Corporate Research Switzerland
- Jan Carlson Mälardalen University Sweden
- Michael Wahler ABB Corporate Research Switzerland
Program Committee
- Jakob Axelsson, Sweden
- Moris Behnam, Sweden
- Etienne Borde, France
- Barbora Buhnova, Czech Republic
- Tomas Bures, Czech Republic
- Ivica Crnkovic, Sweden
- Leandro Indrusiak, United Kingdom
- Frédéric Loiret, Germany
- Matthias Meyer, Germany
- Aurelien Monot, Switzerland
- Henry Muccini, Italy
- Luis Miguel Pinho, Portugal
- Franz Josef Rammig, Germany
- Romain Rouvoy, France
- Thanikesavan Sivanthi, Switzerland
- Mikael Sjödin, Sweden
- Jan Vitek, USA
- Olaf Zimmermann, Switzerland
SANCS’15 Webpage
http://www.mrtc.mdh.se/SANCS15
LinkedIn Group
https://www.linkedin.com/groups?gid=8261511