Add to ORKGIn this work we develop an offline analysis of periodic mixed-criticality real-time systems. We develop a graph-based exploratory method to non-preemptively schedule multiple criticality tasks. The exploration process obtains a schedule for each periodic instance of the tasks. The schedule adjusts for criticality mode changes to maximize the resource usage by allowing lower criticality executions. At the same time, it ensures that the schedulability of other higher criticality jobs is never compromised. We also quantify the probabilities associated to a criticality mode change by using task probabilistic Worst Case Execution Times. A method to reduce the offline complexity is also proposed.info:eu-repo/semantics/publishedVersio
Although many cyber-physical systems are both mixed-criticality system and compositional system, the...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
Mixed criticality systems are one of the relatively new directions of development for the classical ...
Although many cyber-physical systems are both mixed-criticality system and compositional system, the...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this work we develop an offline analysis of periodic mixed-criticality real-time systems. We deve...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
Mixed criticality systems are one of the relatively new directions of development for the classical ...
Although many cyber-physical systems are both mixed-criticality system and compositional system, the...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...