A process algebraic approach to the schedulability analysis and workload abstraction of hierarchical real-time systems

Abstract: Real-time embedded systems have increased in complexity. As microprocessors become more powerful, the software complexity of real-time embedded systems has increased steadily. The requirements for increased functionality and adaptability make the development of real-time embedded software complex and errorprone. Component-based design has been widely accepted as a compositional approach to facilitate the design of complex systems. It provides a means for decomposing a complex system into simpler subsystems and… Show more

“…In the future, we intend to analyze avionic systems introduced in [5] and [9] with the proposed framework.…”

Hierarchical System Schedulability Analysis Framework Using UPPAAL

“…In the future, we intend to analyze avionic systems introduced in [5] and [9] with the proposed framework.…”

Hierarchical System Schedulability Analysis Framework Using UPPAAL

“…One is based on real-time scheduling theory, such as [4,5,8,15,16]. The other is a formal approach such as process algebra approach [2,9,10,11,12,13], task automata [1,6,7], pre-emptive Petri nets [3], etc. PADS is also a process algebra model.…”

A Partial Supply Simulation Relation and its Proof System in PADS

Maintaining temporal validity of real-time data in component-based systems