We present the tool UFIT (Uppaal Fault Injector for Timed automata). In UFIT, we model five types of faults, namely, message loss, transient, byzantine, stuck-at, and fail-stop faults. Given the fault-free timed automata model and the selection of a type of fault, UFIT models the faults and generates the fault-affected timed automata model automatically. As a result, the designer can analyze the behavior of the model in the presence of faults. Moreover, there are several tools that extract timed automata models from higher-level programs. Hence, the designer can use UFIT to inject the faults into the extracted models
When a real-time model checker detects the violation of a timed reachability property for a given Ti...
An infrared sensor is modeled and analyzed in Uppaal. The sensor typifies the sort of component that...
We propose a model-driven engineering approach that facilitates the production of tool chains that u...
We present algorithms and techniques for the repair of timed system models, given as networks of tim...
International audienceThis paper proposes an effective way for the diagnosis of discrete-event syste...
We present TarTar, an automatic repair analysis tool that, given a timed diagnostic trace (TDT) obta...
Since real-time systems often operate in safety-critical environments it is extremely important that...
Since System on Chip (SoC) systems, where integrates all components of a computer or other electroni...
The purpose of this document is to provide a complete description of Uppaal, including its theoretic...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the flavor of...
This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the flavor of...
) Kim G. Larsen y Paul Pettersson z Wang Yi z Uppsala University Uppaal 1 is a new tool suit ...
Abstract. This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the...
Fault diagnosis consists in observing behaviours of systems, and in detecting online whether an erro...
When a real-time model checker detects the violation of a timed reachability property for a given Ti...
An infrared sensor is modeled and analyzed in Uppaal. The sensor typifies the sort of component that...
We propose a model-driven engineering approach that facilitates the production of tool chains that u...
We present algorithms and techniques for the repair of timed system models, given as networks of tim...
International audienceThis paper proposes an effective way for the diagnosis of discrete-event syste...
We present TarTar, an automatic repair analysis tool that, given a timed diagnostic trace (TDT) obta...
Since real-time systems often operate in safety-critical environments it is extremely important that...
Since System on Chip (SoC) systems, where integrates all components of a computer or other electroni...
The purpose of this document is to provide a complete description of Uppaal, including its theoretic...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the flavor of...
This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the flavor of...
) Kim G. Larsen y Paul Pettersson z Wang Yi z Uppsala University Uppaal 1 is a new tool suit ...
Abstract. This is a tutorial paper on the tool Uppaal. Its goal is to be a short introduction on the...
Fault diagnosis consists in observing behaviours of systems, and in detecting online whether an erro...
When a real-time model checker detects the violation of a timed reachability property for a given Ti...
An infrared sensor is modeled and analyzed in Uppaal. The sensor typifies the sort of component that...
We propose a model-driven engineering approach that facilitates the production of tool chains that u...