Real-time systems such as medical devices, surgical robots, and microprocessors are safety- critical applications that have hard timing constraint. The correctness of real-time systems is important as the failure may result in severe consequences such as loss of money, time and human life. These real-time systems have software to control their behavior. Typically, these software have source code which is converted to object code and then executed in safety-critical embedded devices. Therefore, it is important to ensure that both source code and object code are error-free. When dealing with safety-critical systems, formal verification techniques have laid the foundation for ensuring software correctness. Refinement based technique in formal ...
We present a new abstraction technique, event order abstraction (EOA), for parametric safety verific...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
The complete verification of the timing properties of a large critical system cannot be undertaken i...
Real-time systems such as medical devices, surgical robots, and microprocessors are safety-critical ...
Formal verification methods have been shown to be very effective in finding corner-case bugs and ens...
The behavior of practical safety critical systems often combines real-time behavior with structured ...
In safety-critical real-time embedded systems, correctness is of primary concern, as even small tran...
Guaranteeing timing properties is an important issue as we develop safety-critical real-time systems...
Safety-critical medical devices play an important role in improving patients health and lifestyle. F...
Real-time, reactive, and embedded systems are increasingly used throughout society (e.g., flight con...
Real-time systems are found in an increasing variety of application elds. Usually, they are embedded...
We address a number of limitations of Timed Automata and real-time model-checkers, which undermine t...
International audienceDue to the severe consequences of their possible failure, robotic systems must...
This paper addresses the problem improving response times of robots implemented in the Robotic Opera...
Defects that arise due to violating a prescribed order for executing statements or executing a disal...
We present a new abstraction technique, event order abstraction (EOA), for parametric safety verific...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
The complete verification of the timing properties of a large critical system cannot be undertaken i...
Real-time systems such as medical devices, surgical robots, and microprocessors are safety-critical ...
Formal verification methods have been shown to be very effective in finding corner-case bugs and ens...
The behavior of practical safety critical systems often combines real-time behavior with structured ...
In safety-critical real-time embedded systems, correctness is of primary concern, as even small tran...
Guaranteeing timing properties is an important issue as we develop safety-critical real-time systems...
Safety-critical medical devices play an important role in improving patients health and lifestyle. F...
Real-time, reactive, and embedded systems are increasingly used throughout society (e.g., flight con...
Real-time systems are found in an increasing variety of application elds. Usually, they are embedded...
We address a number of limitations of Timed Automata and real-time model-checkers, which undermine t...
International audienceDue to the severe consequences of their possible failure, robotic systems must...
This paper addresses the problem improving response times of robots implemented in the Robotic Opera...
Defects that arise due to violating a prescribed order for executing statements or executing a disal...
We present a new abstraction technique, event order abstraction (EOA), for parametric safety verific...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
The complete verification of the timing properties of a large critical system cannot be undertaken i...