The real-time implementation of periodic controllers requires solving a co-design problem, in which the choice of the controller sampling period is a crucial element. Classic design techniques limit the period exploration to safe values, that guarantee the correct execution of the controller alongside the remaining real-time load, i.e., ensuring that the controller worst-case response time does not exceed its deadline. This paper presents DMAC: the first formally-grounded controller design strategy that explores shorter periods, thus explicitly taking into account the possibility of missing deadlines. The design leverages information about the probability that specific sub-sequences of deadline misses are experienced. The result is a fixed ...
\u3cp\u3eFeedback control applications are robust to occasional deadline misses. This opens up the p...
A real-time control system is generally composed of a synergistic pair, a controlled process and a c...
It is well known that the performance of computer controlled systems is heavily affected by delays a...
The real-time implementation of periodic controllers requires solving a co-design problem, in which ...
The real-time implementation of periodic controllers requires solving a co-design problem, in which ...
This paper deals with the real-time implementation of feedback controllers. In particular, it provid...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
International audienceThe current trend in modeling and analyzing real-time systems is toward tighte...
The policy used to implement a control algorithm in a real-time system can significantly affect the ...
International audienceWe focus on the problem of computing tight deadline miss models for real-time ...
Most research in real-time scheduling theory assumes idealized system conditions. The issues that ca...
In high-end motion control systems, the real-time computational platform must execute tasks from mul...
Control systems are by design robust to various disturbances, ranging from noise to unmodelled dynam...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
A control task’s performance heavily depends on its sampling frequency and sensing-to-actuation dela...
\u3cp\u3eFeedback control applications are robust to occasional deadline misses. This opens up the p...
A real-time control system is generally composed of a synergistic pair, a controlled process and a c...
It is well known that the performance of computer controlled systems is heavily affected by delays a...
The real-time implementation of periodic controllers requires solving a co-design problem, in which ...
The real-time implementation of periodic controllers requires solving a co-design problem, in which ...
This paper deals with the real-time implementation of feedback controllers. In particular, it provid...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
International audienceThe current trend in modeling and analyzing real-time systems is toward tighte...
The policy used to implement a control algorithm in a real-time system can significantly affect the ...
International audienceWe focus on the problem of computing tight deadline miss models for real-time ...
Most research in real-time scheduling theory assumes idealized system conditions. The issues that ca...
In high-end motion control systems, the real-time computational platform must execute tasks from mul...
Control systems are by design robust to various disturbances, ranging from noise to unmodelled dynam...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
A control task’s performance heavily depends on its sampling frequency and sensing-to-actuation dela...
\u3cp\u3eFeedback control applications are robust to occasional deadline misses. This opens up the p...
A real-time control system is generally composed of a synergistic pair, a controlled process and a c...
It is well known that the performance of computer controlled systems is heavily affected by delays a...