As modern cyber-physical systems (CPS) are often mobile, their operating environments varies during run-time in an unpredictable way. Existing varying-speed platform model often takes immediate performance change into consideration, which may be too pessimistic in their analysis, as the aforementioned environmental changes (e.g., thermal) often results in mild performance drops. A more sophisticated varying-speed platform model is proposed to more precisely analyze the real-time schedulability of such systems, which takes the physical limitation of performance deceleration of the CPS into consideration. A simple and efficient algorithm named EDF-VD is adapted to schedule workload with multiple importance levels upon such platforms, and corr...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to b...
In designing safety-critical real-time systems, there is an emerging trend in moving towards mixed-c...
Most existing research on Mixed-Criticality (MC) scheduling (see [1] for a review) has focused on de...
An increasing trend in embedded computing is the moving towards mixed-criticality (MC) systems, in w...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
A mixed criticality (MC) workload consists of components of varying degrees of importance (or criti...
Most prior work on mixed-criticality (MC) scheduling has focused on a model in which multiple WCET p...
<p>A mixed criticality (MC) workload consists of components of varying degrees of importance (or "cr...
Abstract—Real-time embedded systems usually integrate multiple functionalities of different critical...
A mixed criticality (MC) workload consists of com-ponents of varying degrees of importance (or “crit...
Due to size, weight, and power considerations, there is an emerging trend in real-time embedded syst...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to b...
In designing safety-critical real-time systems, there is an emerging trend in moving towards mixed-c...
Most existing research on Mixed-Criticality (MC) scheduling (see [1] for a review) has focused on de...
An increasing trend in embedded computing is the moving towards mixed-criticality (MC) systems, in w...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
A mixed criticality (MC) workload consists of components of varying degrees of importance (or criti...
Most prior work on mixed-criticality (MC) scheduling has focused on a model in which multiple WCET p...
<p>A mixed criticality (MC) workload consists of components of varying degrees of importance (or "cr...
Abstract—Real-time embedded systems usually integrate multiple functionalities of different critical...
A mixed criticality (MC) workload consists of com-ponents of varying degrees of importance (or “crit...
Due to size, weight, and power considerations, there is an emerging trend in real-time embedded syst...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to be...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
We consider the scheduling of mixed-criticality task systems, that is, systems where each task to b...
In designing safety-critical real-time systems, there is an emerging trend in moving towards mixed-c...
Most existing research on Mixed-Criticality (MC) scheduling (see [1] for a review) has focused on de...