Dynamic scheduling techniques, and EDF (Earliest Deadline First) in particular, have demonstrated their ability to increase the schedulability of real time systems compared to fixed-priority scheduling. In distributed systems, the scheduling policies of the processing nodes tend to be the same as in stand-alone systems and, although few EDF networks exist, it is foreseen that dynamic scheduling will gradually develop into real-time networks. There are some response time analysis techniques for EDF scheduled distributed systems, mostly derived from the holistic analysis developed by Spuri. The convergence of the holistic analysis in context of EDF distributed systems with shared resources had not been studied until now. There is a circular d...
Traditional real-time systems are designed using preemptive scheduling and worst-case execution time...
Many distributed real-time applications are structured as a set of processes communicating through s...
In recent years more and more real-time applications run on multiprocessor or distributed systems. I...
Many distributed and multiprocessor real-time applications consist of pipelines of tasks that must c...
Abstract—When multiple computational resource elements collaborate to handle events in a cyber-physi...
Abstract—Real-time scheduling is the theoretical basis of real-time systems engineering. Earliest De...
Hard real-time systems in robotics, space and military missions, and control devices are specified w...
A set of four heuristic algorithms is presented to schedule tasks that have headlines and resource r...
The preemptive real-time scheduling of sporadic parallel task systems is studied. We present an algo...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
In hard real-time systems, a signicant disparity in schedu-lability exists between EDF-based schedul...
This paper presents an algorithm, called Earliest Dead-line Critical Laxity (EDCL), for the efficien...
In this paper, we present a conjecture for exact best-case response times of periodic released, inde...
Real-time dynamic workload consists of tasks that can arbitrarily join and leave the system at run-t...
AbstractIn distributed real-time systems, an application is often modeled as a set of real-time tran...
Traditional real-time systems are designed using preemptive scheduling and worst-case execution time...
Many distributed real-time applications are structured as a set of processes communicating through s...
In recent years more and more real-time applications run on multiprocessor or distributed systems. I...
Many distributed and multiprocessor real-time applications consist of pipelines of tasks that must c...
Abstract—When multiple computational resource elements collaborate to handle events in a cyber-physi...
Abstract—Real-time scheduling is the theoretical basis of real-time systems engineering. Earliest De...
Hard real-time systems in robotics, space and military missions, and control devices are specified w...
A set of four heuristic algorithms is presented to schedule tasks that have headlines and resource r...
The preemptive real-time scheduling of sporadic parallel task systems is studied. We present an algo...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
In hard real-time systems, a signicant disparity in schedu-lability exists between EDF-based schedul...
This paper presents an algorithm, called Earliest Dead-line Critical Laxity (EDCL), for the efficien...
In this paper, we present a conjecture for exact best-case response times of periodic released, inde...
Real-time dynamic workload consists of tasks that can arbitrarily join and leave the system at run-t...
AbstractIn distributed real-time systems, an application is often modeled as a set of real-time tran...
Traditional real-time systems are designed using preemptive scheduling and worst-case execution time...
Many distributed real-time applications are structured as a set of processes communicating through s...
In recent years more and more real-time applications run on multiprocessor or distributed systems. I...