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...
Model-based engineering (MBE) aims at increasing the effectiveness of engineering by using models as...
AbstractA multitude of disciplines is involved in the engineering of embedded systems. One major cha...
Abstract—To deal with the increasing complexity of embedded real-time systems the model-driven devel...
Technical interoperability in “Industrie 4.0” scenarios is currently being achieved by st...
A new comprehensive approach is proposed to support, in a systematic, production-oriented way, the s...
Abstract: Model-based development (MBD) is adopted in practice in different de-grees. A prerequisite...
Abstract. Model-based development relies on the use of explicit models to describe development activ...
Abstract—Model-Integrated Computing is a development approach that advocates the use of Domain-Speci...
Abstract: We present a development process for embedded systems which emerged from industrial practi...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
This paper is about manufacturing industries providing complex embedded systems, composed of mechani...
State-of-the-art software development increasingly relies on describing the system (or software) gra...
Model-based and component-oriented software development approaches are slowly superseding traditiona...
As code complexity continues to increase, software development methods must support the handling of ...
Nowadays, model-based development is a common method to deal with the complexity and wide rages of f...
Model-based engineering (MBE) aims at increasing the effectiveness of engineering by using models as...
AbstractA multitude of disciplines is involved in the engineering of embedded systems. One major cha...
Abstract—To deal with the increasing complexity of embedded real-time systems the model-driven devel...
Technical interoperability in “Industrie 4.0” scenarios is currently being achieved by st...
A new comprehensive approach is proposed to support, in a systematic, production-oriented way, the s...
Abstract: Model-based development (MBD) is adopted in practice in different de-grees. A prerequisite...
Abstract. Model-based development relies on the use of explicit models to describe development activ...
Abstract—Model-Integrated Computing is a development approach that advocates the use of Domain-Speci...
Abstract: We present a development process for embedded systems which emerged from industrial practi...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
This paper is about manufacturing industries providing complex embedded systems, composed of mechani...
State-of-the-art software development increasingly relies on describing the system (or software) gra...
Model-based and component-oriented software development approaches are slowly superseding traditiona...
As code complexity continues to increase, software development methods must support the handling of ...
Nowadays, model-based development is a common method to deal with the complexity and wide rages of f...
Model-based engineering (MBE) aims at increasing the effectiveness of engineering by using models as...
AbstractA multitude of disciplines is involved in the engineering of embedded systems. One major cha...
Abstract—To deal with the increasing complexity of embedded real-time systems the model-driven devel...