We present a modular framework for proving temporal properties of real-time systems, based on clocked transition systems and linear-time temporal logic. We show how deductive verification rules, verification diagrams, and automatic invariant generation can be used to establish properties of real-time systems in this framework. As an example, we present the mechanical verification of the generalized railroad crossing case study using the Stanford Temporal Prover, STeP
We propose a new style of model checking of timed transition systems, where instead of reasoning abo...
This paper presents a new methodology for model checking real-time systems based on the abstraction ...
AbstractThe theory of the natural numbers with linear order and monadic predicates underlies proposi...
AbstractWe present a modular framework for proving temporal properties of real-time systems, based o...
. We extend the specification language of temporal logic, the corresponding verification framework, ...
We present a new temporal logic for the specification and verification of real-time systems. This lo...
We survey logic-based and automata-based languages and techniques for the specification and verific...
AbstractWe extend the specification language of temporal logic, the corresponding verification frame...
We present a deductive verification technique for the specifications written in terms of quantified ...
We extend the specification language of temporal logic, the corresponding verification framework, a...
In this paper, we consider a tractable sub-class of propositional linear time temporal logic, and pr...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
Ahstract:We give an cfticicnt procedure for verifying that a t%ute state concurrent systcm meets a s...
AbstractIn this paper, we present several timed extensions of temporal logics, that can be used for ...
Abstract The task of checking if a computer system satisfies its timing specifications is extremelyi...
We propose a new style of model checking of timed transition systems, where instead of reasoning abo...
This paper presents a new methodology for model checking real-time systems based on the abstraction ...
AbstractThe theory of the natural numbers with linear order and monadic predicates underlies proposi...
AbstractWe present a modular framework for proving temporal properties of real-time systems, based o...
. We extend the specification language of temporal logic, the corresponding verification framework, ...
We present a new temporal logic for the specification and verification of real-time systems. This lo...
We survey logic-based and automata-based languages and techniques for the specification and verific...
AbstractWe extend the specification language of temporal logic, the corresponding verification frame...
We present a deductive verification technique for the specifications written in terms of quantified ...
We extend the specification language of temporal logic, the corresponding verification framework, a...
In this paper, we consider a tractable sub-class of propositional linear time temporal logic, and pr...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
Ahstract:We give an cfticicnt procedure for verifying that a t%ute state concurrent systcm meets a s...
AbstractIn this paper, we present several timed extensions of temporal logics, that can be used for ...
Abstract The task of checking if a computer system satisfies its timing specifications is extremelyi...
We propose a new style of model checking of timed transition systems, where instead of reasoning abo...
This paper presents a new methodology for model checking real-time systems based on the abstraction ...
AbstractThe theory of the natural numbers with linear order and monadic predicates underlies proposi...