TTA and PALS are two prominent formal design patterns-with different strengths andweaknesses-for virtually synchronous distributed cyber-physical systems (CPSs). They greatly simplify the design and verification of such systems by allowing us to design and verify their underlying synchronous designs. In this paper we introduce and verify MSYNC as a formal design (and verification) pattern/synchronizer for hierarchical multirate CPSs that generalizes, and combines the advantages of, both TTA and (single-rate and multirate) PALS. We also define an extension of TTA to multirate CPSs as a special case. We show that MSYNC outperforms both TTA and PALS in terms of allowing shorter periods, and illustrate the MSYNC design and verification approach...
International audienceFault-tolerant distributed algorithms play an important role in many critical/...
We propose a performance verification technique for cyber-physical systems that consist of multiple ...
Cyber-physical systems (CPS) consist of subsystems of distributed computation interconnected by comp...
Distributed cyber-physical systems (DCPS) are pervasive in areas such as aeronautics and ground tran...
Distributed real-time systems (DRTSs), such as avionics and automotive systems, are very hard to des...
Abstract—Designing and verifying distributed protocols in a multi-rate asynchronous system is, in ge...
Designing and verifying distributed protocols in a multi-rate asynchronous system is, in general, ex...
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...
AbstractMany Distributed Real-Time Systems (DRTSs), such as integrated modular avionics systems and ...
In networked cyber physical systems real time global computations, e.g., the supervisory control of...
The verification of safety-critical systems has become an area of increasing importance in computer...
A multiway synchronization protocol makes it possible for several processes to synchronize in an env...
We present the HYBRIDSYNCHAADL modeling language and formal analysis tool for virtually synchronous ...
International audienceThe verification of safety-critical systems has become an area of increasing i...
International audienceFault-tolerant distributed algorithms play an important role in many critical/...
We propose a performance verification technique for cyber-physical systems that consist of multiple ...
Cyber-physical systems (CPS) consist of subsystems of distributed computation interconnected by comp...
Distributed cyber-physical systems (DCPS) are pervasive in areas such as aeronautics and ground tran...
Distributed real-time systems (DRTSs), such as avionics and automotive systems, are very hard to des...
Abstract—Designing and verifying distributed protocols in a multi-rate asynchronous system is, in ge...
Designing and verifying distributed protocols in a multi-rate asynchronous system is, in general, ex...
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...
AbstractMany Distributed Real-Time Systems (DRTSs), such as integrated modular avionics systems and ...
In networked cyber physical systems real time global computations, e.g., the supervisory control of...
The verification of safety-critical systems has become an area of increasing importance in computer...
A multiway synchronization protocol makes it possible for several processes to synchronize in an env...
We present the HYBRIDSYNCHAADL modeling language and formal analysis tool for virtually synchronous ...
International audienceThe verification of safety-critical systems has become an area of increasing i...
International audienceFault-tolerant distributed algorithms play an important role in many critical/...
We propose a performance verification technique for cyber-physical systems that consist of multiple ...
Cyber-physical systems (CPS) consist of subsystems of distributed computation interconnected by comp...