International audienceWe focus on the problem of computing tight deadline miss models for real-time systems, which bound the number of potential deadline misses in a given sequence of activations of a task. In practical applications, such guarantees are often sufficient because many systems are in fact not hard real-time. Our major contribution is a general formulation of that problem in the context of systems where some tasks occasionally experience sporadic overload. Based on this new formulation, we present an algorithm that can take into account fine-grained effects of overload at the input of different tasks when computing deadline miss bounds. Finally, we show in experiments with synthetic as well as industrial data that ouralgorithm ...
Abstract Investigations into deadline guarantees in real-time systems have traditionally been domina...
This paper deals with the real-time implementation of feedback controllers. In particular, it provid...
Hard real-time task scheduling in a dynamic environment has been an important area of research, posi...
International audienceWe focus on the problem of computing tight deadline miss models for real-time ...
International audienceReal-time systems with functional dependencies between tasks often require end...
International audienceThe current trend in modeling and analyzing real-time systems is toward tighte...
Most works in schedulability analysis theory are based on the assumption that constraints on the per...
International audienceWeakly-hard time constraints have been proposed for applications where occasio...
In a hard real-time system, it is assumed that no deadline is missed, whereas, in a soft or firm rea...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
A wide range of embedded systems falls into the category of safety-critical systems. Such systems im...
Most works in schedulability analysis theory are based on the assumption that constraints on the per...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Abstract Investigations into deadline guarantees in real-time systems have traditionally been domina...
This paper deals with the real-time implementation of feedback controllers. In particular, it provid...
Hard real-time task scheduling in a dynamic environment has been an important area of research, posi...
International audienceWe focus on the problem of computing tight deadline miss models for real-time ...
International audienceReal-time systems with functional dependencies between tasks often require end...
International audienceThe current trend in modeling and analyzing real-time systems is toward tighte...
Most works in schedulability analysis theory are based on the assumption that constraints on the per...
International audienceWeakly-hard time constraints have been proposed for applications where occasio...
In a hard real-time system, it is assumed that no deadline is missed, whereas, in a soft or firm rea...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
A wide range of embedded systems falls into the category of safety-critical systems. Such systems im...
Most works in schedulability analysis theory are based on the assumption that constraints on the per...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Abstract Investigations into deadline guarantees in real-time systems have traditionally been domina...
This paper deals with the real-time implementation of feedback controllers. In particular, it provid...
Hard real-time task scheduling in a dynamic environment has been an important area of research, posi...