Although real-time operating systems provide many of the task control services necessary to process time-critical applications (i.e., applications with fixed, invariant deadlines), it may still be necessary to provide a scheduling algorithm at a level above the operating system in order to coordinate a set of synchronized, time-critical tasks executing at different cyclic rates. The scheduling requirements for such applications and develops scheduling algorithms using services provided by contemporary real-time operating systems
The advent of multi-core architecture rises many challenges, issues and opportunities. Multicores ha...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Control systems are often designed using a set of co-operating periodic modules running under contro...
The design of real-time systems faces two important challenges: incorporating more functions/service...
"September 1983"--Cover.Distributed to depository libraries in microfiche."Langley Research Center."...
Models for real-time computing are available with different timing requirements. With the ongoing tr...
The most important objective of real-time systems is to fulfill time-critical missions in satisfyin...
Modern real-time systems tend to be mixed-critical, in the sense that they integrate on the same com...
Introduction Real-time systems are playing an increasingly vital role in today's society. Such ...
Real-time systems are designed for applications in which response time is critical. As timing is a m...
Many sensor-based control systems are dynamically changing, and thus require a flexible scheduler. T...
Mixed criticality systems are one of the relatively new directions of development for the classical ...
Scheduling algorithms are a governing part of real-time sys-tems and there exists many different sch...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
The development of High-Integrity Real-Time Systems has a high footprint in terms of human, material...
The advent of multi-core architecture rises many challenges, issues and opportunities. Multicores ha...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Control systems are often designed using a set of co-operating periodic modules running under contro...
The design of real-time systems faces two important challenges: incorporating more functions/service...
"September 1983"--Cover.Distributed to depository libraries in microfiche."Langley Research Center."...
Models for real-time computing are available with different timing requirements. With the ongoing tr...
The most important objective of real-time systems is to fulfill time-critical missions in satisfyin...
Modern real-time systems tend to be mixed-critical, in the sense that they integrate on the same com...
Introduction Real-time systems are playing an increasingly vital role in today's society. Such ...
Real-time systems are designed for applications in which response time is critical. As timing is a m...
Many sensor-based control systems are dynamically changing, and thus require a flexible scheduler. T...
Mixed criticality systems are one of the relatively new directions of development for the classical ...
Scheduling algorithms are a governing part of real-time sys-tems and there exists many different sch...
Real-time systems are increasingly running a mix of tasks with different criticality levels: for ins...
The development of High-Integrity Real-Time Systems has a high footprint in terms of human, material...
The advent of multi-core architecture rises many challenges, issues and opportunities. Multicores ha...
Timing guarantee is critical to ensure the correctness of embedded software systems that interact wi...
Control systems are often designed using a set of co-operating periodic modules running under contro...