Real-time scheduling usually considers worst-case values for the parameters of task (or message stream) sets, in order to provide safe schedulability tests for hard real-time systems. However, worst-case conditions introduce a level of pessimism that is often inadequate for a certain class of (soft) real-time systems. In this paper we provide an approach for computing the stochastic response time of tasks where tasks have inter-arrival times described by discrete probabilistic distribution functions, instead of minimum inter-arrival (MIT) values
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Fixed-priority scheduling with deferred preemption (FPDS) has been proposed in the literature as a v...
In this paper, we present a conjecture for exact best-case response times of periodic released, inde...
Real-time scheduling usually considers worst-case values for the parameters of task (or message stre...
This thesis work describes how to apply the stochastic analysis framework, presented in [1] for gene...
Abstract This paper describes a stochastic analysis framework which computes the response time distr...
This paper describes a stochastic analysis framework for general priority-driven periodic real-time ...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
In this paper we investigate the problem of calculating the response time distribution for real-time...
This paper presents a new schedulability analysis methodology for distributed hard real-time systems...
This paper describes a stochastic analysis method for general periodic real-time systems. The propos...
Classical analysis of real-time systems focuses on guaranteeing the schedulability of the system whe...
International audienceIn this paper, we prove that a mean system utilization smaller than one is a n...
Exact stochastic analysis of most real-time systems under preemptive priority-driven scheduling is u...
Since worst case response times must be determined repeatedly during the interactive design of real-...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Fixed-priority scheduling with deferred preemption (FPDS) has been proposed in the literature as a v...
In this paper, we present a conjecture for exact best-case response times of periodic released, inde...
Real-time scheduling usually considers worst-case values for the parameters of task (or message stre...
This thesis work describes how to apply the stochastic analysis framework, presented in [1] for gene...
Abstract This paper describes a stochastic analysis framework which computes the response time distr...
This paper describes a stochastic analysis framework for general priority-driven periodic real-time ...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
In this paper we investigate the problem of calculating the response time distribution for real-time...
This paper presents a new schedulability analysis methodology for distributed hard real-time systems...
This paper describes a stochastic analysis method for general periodic real-time systems. The propos...
Classical analysis of real-time systems focuses on guaranteeing the schedulability of the system whe...
International audienceIn this paper, we prove that a mean system utilization smaller than one is a n...
Exact stochastic analysis of most real-time systems under preemptive priority-driven scheduling is u...
Since worst case response times must be determined repeatedly during the interactive design of real-...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Fixed-priority scheduling with deferred preemption (FPDS) has been proposed in the literature as a v...
In this paper, we present a conjecture for exact best-case response times of periodic released, inde...