This paper presents a new Model of Computation (MoC) for real-time tasks used in control systems. This new model, named continuous stream task model, relaxes some of the constraints imposed by the traditional hard and soft real-time task models. A key advantage of the model is the possibility to easily analyse the probabilistic evolution of the delays. This leads to an easy formalisation of necessary and sufficient conditions for the stochastic stability of the closed loop system producing considerable savings in the amount of CPU bandwidth required to stabilise the system. This fact is confirmed by an extensive set of simulations. © 2013 IEEE
The use of distributed computers to control life-critical systems, such as aircraft or nuclear react...
International audienceIn this paper, we propose two adaptive scheduling approaches to support real-t...
To engineers involved in designing, developing, or operating control systems for practical applicati...
This paper presents a new Model of Computation (MoC) for real-time tasks used in control systems. Th...
Abstract—This paper presents a new Model of Computation (MoC) for real-time tasks used in control sy...
International audienceWe consider the problem of optimal allocation of computation resources to a se...
The paper presents a computational model for real time control tasks, with the primary goal of simpl...
The paper presents a computational model for real-time controltasks, with the primary goal of simpli...
Models Of Computation (MoCs) define the rules for com-putation and communication for components in a...
Most real-time computer-controlled systems are developed in two separate stages: controller design f...
A different paradigm is needed for real-time command and control (C&C) problems. Past approaches...
A novel control model, predictor model, is presented, that can support the implementation of control...
International audienceOver the last few years, Real-Time Calculus has been used extensively to model...
International audienceLanguages for embedded systems ensure predictable timing behavior by specifyin...
This thesis deals with methods for handling resource constraints in embedded control systems and rea...
The use of distributed computers to control life-critical systems, such as aircraft or nuclear react...
International audienceIn this paper, we propose two adaptive scheduling approaches to support real-t...
To engineers involved in designing, developing, or operating control systems for practical applicati...
This paper presents a new Model of Computation (MoC) for real-time tasks used in control systems. Th...
Abstract—This paper presents a new Model of Computation (MoC) for real-time tasks used in control sy...
International audienceWe consider the problem of optimal allocation of computation resources to a se...
The paper presents a computational model for real time control tasks, with the primary goal of simpl...
The paper presents a computational model for real-time controltasks, with the primary goal of simpli...
Models Of Computation (MoCs) define the rules for com-putation and communication for components in a...
Most real-time computer-controlled systems are developed in two separate stages: controller design f...
A different paradigm is needed for real-time command and control (C&C) problems. Past approaches...
A novel control model, predictor model, is presented, that can support the implementation of control...
International audienceOver the last few years, Real-Time Calculus has been used extensively to model...
International audienceLanguages for embedded systems ensure predictable timing behavior by specifyin...
This thesis deals with methods for handling resource constraints in embedded control systems and rea...
The use of distributed computers to control life-critical systems, such as aircraft or nuclear react...
International audienceIn this paper, we propose two adaptive scheduling approaches to support real-t...
To engineers involved in designing, developing, or operating control systems for practical applicati...