International audienceWith the growing complexity of Real-Time Embedded Systems (RTES), there is a huge interest in using modeling languages such as the Unified Modeling Language (UML), and other Model-Driven Engineering (MDE) techniques targeting RTES system design. These approaches provide language abstractions for system design, allowing to focus on their relevant properties. Unfortunately, such approaches still suffer from several shortcomings including the lack of well-defined semantics. Therefore, it remains difficult to connect the MDE specification tools and the design tools that are based on formal grounds and well-defined semantics to perform analysis, validation or system synthesis for RTES. This paper presents ...
The fourth ACES-MB workshop brought together researchers and practitioners interested in model-based...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
In the embedded system and System-on-Chip (SoC) design area, the increasing technological complexity...
International audienceWith the growing complexity of Real-Time Embedded Systems (RTES), there ...
This dissertation presents a model-based codesign framework for real-time embedded systems applicati...
Design of distributed embedded systems is a challenging task and it requires to raise the level of a...
The design of embedded systems is being challenged by their growing complexity and tight performance...
Abstract—The development of real-time embedded systems is quite complex because of the wide range of...
This paper presents a prototype environment for HW/SW co--design of embedded systems based on the Un...
International audienceThe recent advances in Unified Modeling Language (UML) give a valuable milesto...
Embedded systems are increasingly complex and have tight constraints in terms of cost, performance, ...
International audienceIn order to keep competition at bay, industries have no other choice than ever...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
The complexity of state-of-the-art embedded systems requires designers to focus on abstraction level...
Model-driven engineering (MDE) refers to the systematic use of models as primary engineering artifac...
The fourth ACES-MB workshop brought together researchers and practitioners interested in model-based...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
In the embedded system and System-on-Chip (SoC) design area, the increasing technological complexity...
International audienceWith the growing complexity of Real-Time Embedded Systems (RTES), there ...
This dissertation presents a model-based codesign framework for real-time embedded systems applicati...
Design of distributed embedded systems is a challenging task and it requires to raise the level of a...
The design of embedded systems is being challenged by their growing complexity and tight performance...
Abstract—The development of real-time embedded systems is quite complex because of the wide range of...
This paper presents a prototype environment for HW/SW co--design of embedded systems based on the Un...
International audienceThe recent advances in Unified Modeling Language (UML) give a valuable milesto...
Embedded systems are increasingly complex and have tight constraints in terms of cost, performance, ...
International audienceIn order to keep competition at bay, industries have no other choice than ever...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
The complexity of state-of-the-art embedded systems requires designers to focus on abstraction level...
Model-driven engineering (MDE) refers to the systematic use of models as primary engineering artifac...
The fourth ACES-MB workshop brought together researchers and practitioners interested in model-based...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
In the embedded system and System-on-Chip (SoC) design area, the increasing technological complexity...