Mixed criticality systems are one of the relatively new directions of development for the classical real-time systems. As the real-time embedded systems become more and more complex, incorporating different tasks with different criticality levels, the continuous development of mixed criticality systems is only natural. These systems have practically entered every field where embedded systems are present: avionics, automotive, medical systems, wearable devices, home automation, industry and even the Internet of Things. While scheduling techniques have already been proposed in the literature for different types of mixed criticality systems, the number of papers addressing multiprocessor platforms running in a time-triggered mixed criticality ...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
In embedded systems, there is a trend of integrating several different functionalities on a common p...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
Motivated by the increasing trend in embedded systems towards platform integration, there has been a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Modern real-time systems tend to be mixed-critical, in the sense that they integrate on the same com...
Motivated by the increasing trend in embedded systems towards platform integration, there has been a...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
In embedded systems, there is a trend of integrating several different functionalities on a common p...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
Motivated by the increasing trend in embedded systems towards platform integration, there has been a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Modern real-time systems tend to be mixed-critical, in the sense that they integrate on the same com...
Motivated by the increasing trend in embedded systems towards platform integration, there has been a...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...