AbstractSafety-critical avionics systems which become more complex and tend to integrate multiple functionalities with different levels of criticality for better cost and power efficiency are subject to certifications at various levels of rigorousness. In order to simultaneously guarantee temporal constraints at all different levels of assurance mandated by different criticalities, novel scheduling techniques are in need. In this paper, a mixed-criticality sporadic task model with multiple virtual deadlines is built and a certification-cognizant dynamic scheduling approach referred as earliest virtual-deadline first with mixed-criticality (EVDF-MC) is considered, which exploits different relative deadlines of tasks in different criticality ...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Due to size, weight, and power considerations, there is an emerging trend in real-time embedded syst...
In this paper, we deal with the schedule synthesis problem of mixed-criticality cyber-physical syste...
AbstractSafety-critical avionics systems which become more complex and tend to integrate multiple fu...
Systems in many safety-critical application domains are subject to certification requirements. In su...
In this paper, we study the scheduling problem of the imprecise mixed-criticality model (IMC) under ...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
This paper extends analysis of the Adaptive Mixed Criticality (AMC) scheme for fixed-priority preemp...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
Systems in many safety-critical application domains are subject to certification requirements. For a...
The well-known model of Vestal aims to avoid excessive pessimism in the quantifcation of the process...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
This paper provides analysis of the Adaptive Mixed Criticality (AMC) scheduling scheme for mixed-cri...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Due to size, weight, and power considerations, there is an emerging trend in real-time embedded syst...
In this paper, we deal with the schedule synthesis problem of mixed-criticality cyber-physical syste...
AbstractSafety-critical avionics systems which become more complex and tend to integrate multiple fu...
Systems in many safety-critical application domains are subject to certification requirements. In su...
In this paper, we study the scheduling problem of the imprecise mixed-criticality model (IMC) under ...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
This paper extends analysis of the Adaptive Mixed Criticality (AMC) scheme for fixed-priority preemp...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
Systems in many safety-critical application domains are subject to certification requirements. For a...
The well-known model of Vestal aims to avoid excessive pessimism in the quantifcation of the process...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
This paper provides analysis of the Adaptive Mixed Criticality (AMC) scheduling scheme for mixed-cri...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Due to size, weight, and power considerations, there is an emerging trend in real-time embedded syst...
In this paper, we deal with the schedule synthesis problem of mixed-criticality cyber-physical syste...