AbstractMany Distributed Real-Time Systems (DRTSs), such as integrated modular avionics systems and distributed control systems in motor vehicles, are made up of a collection of components communicating asynchronously among themselves and with their environment that must change their state and respond to environment inputs within hard real-time bounds. Such systems are often safety-critical and need to be certified; but their certification is currently hard due to their distributed nature. The Physically Asynchronous Logically Synchronous (PALS) architectural pattern can greatly reduce the design and verification complexities of achieving virtual synchrony in a DRTS. This work presents a formal specification of PALS as a formal model transf...
While synchrony and asynchrony are two distinct concepts of concurrency theory, effective and formal...
This article introduces a fully automated verification technique that permits to analyze real-time s...
Formal specification is vital to the development of distributed real-time systems as these systems a...
Many Distributed Real-Time Systems (DRTS), such as integrated modular avionics systems and distribut...
Cyber-physical systems, such as avionics and automobiles, are real-time distributed systems, where m...
Distributed real-time systems (DRTSs), such as avionics and automotive systems, are very hard to des...
Due to physical requirements, what in essence and at a higher level of abstraction is a logically ...
Distributed cyber-physical systems (DCPS) are pervasive in areas such as aeronautics and ground tran...
Designing and verifying distributed protocols in a multi-rate asynchronous system is, in general, ex...
Abstract—Designing and verifying distributed protocols in a multi-rate asynchronous system is, in ge...
In networked cyber physical systems real time global computations, e.g., the supervisory control of...
Fault-tolerant real-time distributed control systems are being developed for next-generation aircraf...
TTA and PALS are two prominent formal design patterns-with different strengths andweaknesses-for vir...
This article introduces a fully automated verification technique that permits to analyze real-time s...
The application of component middleware in missioncritical systems introduces new challenges for dis...
While synchrony and asynchrony are two distinct concepts of concurrency theory, effective and formal...
This article introduces a fully automated verification technique that permits to analyze real-time s...
Formal specification is vital to the development of distributed real-time systems as these systems a...
Many Distributed Real-Time Systems (DRTS), such as integrated modular avionics systems and distribut...
Cyber-physical systems, such as avionics and automobiles, are real-time distributed systems, where m...
Distributed real-time systems (DRTSs), such as avionics and automotive systems, are very hard to des...
Due to physical requirements, what in essence and at a higher level of abstraction is a logically ...
Distributed cyber-physical systems (DCPS) are pervasive in areas such as aeronautics and ground tran...
Designing and verifying distributed protocols in a multi-rate asynchronous system is, in general, ex...
Abstract—Designing and verifying distributed protocols in a multi-rate asynchronous system is, in ge...
In networked cyber physical systems real time global computations, e.g., the supervisory control of...
Fault-tolerant real-time distributed control systems are being developed for next-generation aircraf...
TTA and PALS are two prominent formal design patterns-with different strengths andweaknesses-for vir...
This article introduces a fully automated verification technique that permits to analyze real-time s...
The application of component middleware in missioncritical systems introduces new challenges for dis...
While synchrony and asynchrony are two distinct concepts of concurrency theory, effective and formal...
This article introduces a fully automated verification technique that permits to analyze real-time s...
Formal specification is vital to the development of distributed real-time systems as these systems a...