International audienceOver the last decade, the increasing demand for the validation of safety critical systems lead to the development of domain-specific programming languages (e.g. synchronous languages) and automatic verification tools (e.g. model checkers). Conventionally, the verification of a reactive system is implemented by specifying a discrete model of the system (i.e. a finite-state machine) and then checking this model against temporal properties (e.g. using an automata-based tool). We investigate the use of a theorem prover, Coq, for the specification of infinite state systems and for the verification of co-inductive properties
One of the research areas of great importance in Computer Science is the study of the semantics of c...
Due to their safety-critical nature, cyber-physical systems (CPS) demand the most rigorous verificat...
Thanks to recent advances, modern proof assistants now enable verification of realistic sequential p...
International audienceOver the last decade, the increasing demand for the validation of safety criti...
International audienceOver the last decade, the increasing demand for the validation of safety criti...
The verification of safety-critical systems has become an area of increasing importance in computer...
For the development of safety-critical reactive systems, proving correctness is unavoidable. Here we...
This work presents a complete formalization of Alternating-time Temporal Logic (ATL) and its semanti...
International audienceThe verification of safety-critical systems has become an area of increasing i...
International audienceSynchronous model is a type of formal models for modelling and specifying reac...
Computation is employed to incredible success in a massive variety of applications, and yet it is di...
The syntax of an imperative language does not mention explicitly the state, while its denotational s...
We present an automated abstract verification method for infinite-state systems specified by logic p...
We have developed a hybrid system safety prover, implemented in Coq using the abstraction method int...
Thanks to recent advances, modern proof assistants now enable verification of realistic sequential p...
One of the research areas of great importance in Computer Science is the study of the semantics of c...
Due to their safety-critical nature, cyber-physical systems (CPS) demand the most rigorous verificat...
Thanks to recent advances, modern proof assistants now enable verification of realistic sequential p...
International audienceOver the last decade, the increasing demand for the validation of safety criti...
International audienceOver the last decade, the increasing demand for the validation of safety criti...
The verification of safety-critical systems has become an area of increasing importance in computer...
For the development of safety-critical reactive systems, proving correctness is unavoidable. Here we...
This work presents a complete formalization of Alternating-time Temporal Logic (ATL) and its semanti...
International audienceThe verification of safety-critical systems has become an area of increasing i...
International audienceSynchronous model is a type of formal models for modelling and specifying reac...
Computation is employed to incredible success in a massive variety of applications, and yet it is di...
The syntax of an imperative language does not mention explicitly the state, while its denotational s...
We present an automated abstract verification method for infinite-state systems specified by logic p...
We have developed a hybrid system safety prover, implemented in Coq using the abstraction method int...
Thanks to recent advances, modern proof assistants now enable verification of realistic sequential p...
One of the research areas of great importance in Computer Science is the study of the semantics of c...
Due to their safety-critical nature, cyber-physical systems (CPS) demand the most rigorous verificat...
Thanks to recent advances, modern proof assistants now enable verification of realistic sequential p...