Add to ORKGInternational audienceWe demonstrate the feasibility of a complete workflow to synthesize and implement correct-by-construction fault tolerant distributed embedded systems consisting of real-time periodic tasks. Correct-by-construction is provided by the use of discrete controller synthesis (DCS), a formal method thanks to which we are able to guarantee that the synthesized controlled system guarantees the functionality of its tasks even in the presence of processor failures. For this step, our workflow uses the Heptagon domain specific language and the Sigali DCS tool. The correct implementation of the resulting distributed system is a challenge, all the more since the controller itself must be tolerant to the processor failures. We achiev...
In this paper, we propose a design framework for distributed embedded control systems that ensures r...
discrete controller synthesis for the modeling of fault-tolerant distributed system
Fault-tolerant distributed algorithms play an important role in many critical/high-availability appl...
International audienceWe demonstrate the feasibility of a complete workflow to synthesize and implem...
International audienceDiscrete controller synthesis (DCS) is a formal approach, based on the same st...
Embedded systems require safe design methods based on formal methods, as well as safe execution base...
AbstractEmbedded systems require safe design methods based on formal methods, as well as safe execut...
International audienceWe propose a technique for discrete controller synthesis, with optimal synthes...
Embedded systems account for a major part of crit- ical applications (space, aeronautics, nuclear. ....
International audienceThis paper presents an approach of a safe control synthesis of Timed Discrete ...
A distributed system is fault-tolerant if it continues to perform correctly even when a subset of th...
Designing cost-sensitive real-time control systems for safety-critical applications requires a caref...
We deal with synthesis of distributed embedded control systems closed over a faulty or severely cons...
We present a formal approach to implement fault-tolerance in real-time embedded systems. The initial...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
In this paper, we propose a design framework for distributed embedded control systems that ensures r...
discrete controller synthesis for the modeling of fault-tolerant distributed system
Fault-tolerant distributed algorithms play an important role in many critical/high-availability appl...
International audienceWe demonstrate the feasibility of a complete workflow to synthesize and implem...
International audienceDiscrete controller synthesis (DCS) is a formal approach, based on the same st...
Embedded systems require safe design methods based on formal methods, as well as safe execution base...
AbstractEmbedded systems require safe design methods based on formal methods, as well as safe execut...
International audienceWe propose a technique for discrete controller synthesis, with optimal synthes...
Embedded systems account for a major part of crit- ical applications (space, aeronautics, nuclear. ....
International audienceThis paper presents an approach of a safe control synthesis of Timed Discrete ...
A distributed system is fault-tolerant if it continues to perform correctly even when a subset of th...
Designing cost-sensitive real-time control systems for safety-critical applications requires a caref...
We deal with synthesis of distributed embedded control systems closed over a faulty or severely cons...
We present a formal approach to implement fault-tolerance in real-time embedded systems. The initial...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
In this paper, we propose a design framework for distributed embedded control systems that ensures r...
discrete controller synthesis for the modeling of fault-tolerant distributed system
Fault-tolerant distributed algorithms play an important role in many critical/high-availability appl...