\u3cp\u3eThis paper describes our experience with extending ExSched, an operating system independent external CPU scheduler framework for real-time systems, with support for mixed criticality. We used the so-called adaptive mixed criticality (AMC) scheme as a starting point for mixed criticality. We extended that scheme from two to more than two criticality levels and complemented it with specified behavior for criticality level changes.\u3c/p\u3
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
This paper describes our experience with extending ExSched, an operating system independent external...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
\u3cp\u3eBackground: With an increase of the number of features in a vehicle, the computational requ...
Abstract—Scheduling theory and algorithms have been well studied in the real-time systems literature...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Many safety-critical systems use criticality arithmetic, an informal practice of implementing a high...
In embedded systems, there is a trend of integrating several different functionalities on a common p...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
The majority of prior academic research into mixed criticality systems assumes that if high-critical...
\u3cp\u3eThis paper reports upon our on-going research in supporting mixed criticality by means of a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
This paper describes our experience with extending ExSched, an operating system independent external...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
\u3cp\u3eBackground: With an increase of the number of features in a vehicle, the computational requ...
Abstract—Scheduling theory and algorithms have been well studied in the real-time systems literature...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
Many safety-critical systems use criticality arithmetic, an informal practice of implementing a high...
In embedded systems, there is a trend of integrating several different functionalities on a common p...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
The majority of prior academic research into mixed criticality systems assumes that if high-critical...
\u3cp\u3eThis paper reports upon our on-going research in supporting mixed criticality by means of a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...