Abstract—Nowadays, most embedded safety critical systems have to work in a timely manner in order to deliver desired services. In such timed systems not only ordering of events but timing properties are relevant for correctness and performance. In order to be safe and reliable, it is important to have rigorous analysis techniques of timing-dependent (state) behav-ior. Classical scheduling approaches consider only the system behavior stateless. Especially for safety critical systems this is not sufficient as the state space gives important information of the system which has to be considered by analysis approaches. Our approach for scheduling analysis combines analytical and model checking methods. We consider not only critical instances but...
We present a compositional approach to analyze timing behavior of complex platforms with different s...
This thesis presents a framework for design, analysis, and implementation of embedded systems. We ad...
In the domain of formal modelling and verification of real-time safety-critical systems, our focus i...
Part 5: ARAMIS Special SessionInternational audienceFor most embedded safety-critical systems not on...
International audienceWe develop and implement a methodology for automatic abstraction of systems de...
For any real-time system, being predictable with respect to time is a basic necessity. The combinati...
The temporal correctness of safety-critical systems is typically guaranteed via a response-time anal...
In this paper, we compare and survey different ways to model the scheduling delays corresponding to ...
We present a compositional approach to analyze timing behavior of complex platforms with different s...
Abstract—For hard real-time systems, timeliness of operations has to be guaranteed. Static timing an...
International audienceModel checking suffers from the state explosion problem. Compositional abstrac...
With an increasing number of applications, real-time embedded systems are gaining in size and comple...
Abstract. Traditional timing analysis techniques rely on composing system-level worst-case behavior ...
Part 2: System-Level DesignInternational audienceThe analysis of real-time properties is crucial in ...
The temporal correctness of safety-critical systems is typically guaranteed via a response-time anal...
We present a compositional approach to analyze timing behavior of complex platforms with different s...
This thesis presents a framework for design, analysis, and implementation of embedded systems. We ad...
In the domain of formal modelling and verification of real-time safety-critical systems, our focus i...
Part 5: ARAMIS Special SessionInternational audienceFor most embedded safety-critical systems not on...
International audienceWe develop and implement a methodology for automatic abstraction of systems de...
For any real-time system, being predictable with respect to time is a basic necessity. The combinati...
The temporal correctness of safety-critical systems is typically guaranteed via a response-time anal...
In this paper, we compare and survey different ways to model the scheduling delays corresponding to ...
We present a compositional approach to analyze timing behavior of complex platforms with different s...
Abstract—For hard real-time systems, timeliness of operations has to be guaranteed. Static timing an...
International audienceModel checking suffers from the state explosion problem. Compositional abstrac...
With an increasing number of applications, real-time embedded systems are gaining in size and comple...
Abstract. Traditional timing analysis techniques rely on composing system-level worst-case behavior ...
Part 2: System-Level DesignInternational audienceThe analysis of real-time properties is crucial in ...
The temporal correctness of safety-critical systems is typically guaranteed via a response-time anal...
We present a compositional approach to analyze timing behavior of complex platforms with different s...
This thesis presents a framework for design, analysis, and implementation of embedded systems. We ad...
In the domain of formal modelling and verification of real-time safety-critical systems, our focus i...