Technical interoperability in “Industrie 4.0” scenarios is currently being achieved by standards such as OPC UA. Such standards allow operators to use a common communication interface for heterogeneous production devices. However, production flexibility (e.g. self-configuration or dynamic self-adaptation) can only be achieved if system structure and engineering processes change. At the moment, traditional engineering processes for embedded systems generate communication interfaces from software. This stands in stark contrast to component-based software engineering approaches. In this paper, we introduce a tool-based software engineering approach that puts models...
International audienceDesigners increasingly rely on reusing intellectual property (IP) and on raisi...
Embedded systems are becoming increasingly complex and more distributed. Cost and quality requiremen...
The Standardization of a development process for systems of medium complexity, entirely supported by...
Technical interoperability in “Industrie 4.0” scenarios is currently being achieved by st...
The ease of software development, maintenance, commissioning and reconfiguration is paramount in ind...
Model-driven and component-based software development, using the UML, has become one of the dominant...
International audienceThe development of motor-vehicle control-systems software is characterized lar...
A new comprehensive approach is proposed to support, in a systematic, production-oriented way, the s...
This paper proposes an architecture concept to the design of software, for embedded systems and coop...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
AbstractA multitude of disciplines is involved in the engineering of embedded systems. One major cha...
Software is prevalent in many products manufactured today; cars, washing machines, mobile phones, ai...
International audienceEmbedded systems are becoming increasingly complex and more distributed. Cost ...
Limitations on networked embedded systems imposed by mobility and adaptation scenarios amid scarce e...
As modern embedded systems grow in complexity component-based development is an increasingly attract...
International audienceDesigners increasingly rely on reusing intellectual property (IP) and on raisi...
Embedded systems are becoming increasingly complex and more distributed. Cost and quality requiremen...
The Standardization of a development process for systems of medium complexity, entirely supported by...
Technical interoperability in “Industrie 4.0” scenarios is currently being achieved by st...
The ease of software development, maintenance, commissioning and reconfiguration is paramount in ind...
Model-driven and component-based software development, using the UML, has become one of the dominant...
International audienceThe development of motor-vehicle control-systems software is characterized lar...
A new comprehensive approach is proposed to support, in a systematic, production-oriented way, the s...
This paper proposes an architecture concept to the design of software, for embedded systems and coop...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
AbstractA multitude of disciplines is involved in the engineering of embedded systems. One major cha...
Software is prevalent in many products manufactured today; cars, washing machines, mobile phones, ai...
International audienceEmbedded systems are becoming increasingly complex and more distributed. Cost ...
Limitations on networked embedded systems imposed by mobility and adaptation scenarios amid scarce e...
As modern embedded systems grow in complexity component-based development is an increasingly attract...
International audienceDesigners increasingly rely on reusing intellectual property (IP) and on raisi...
Embedded systems are becoming increasingly complex and more distributed. Cost and quality requiremen...
The Standardization of a development process for systems of medium complexity, entirely supported by...