Abstract. Timed-trace formalisms have emerged as a powerful method for specifying and reasoning about concurrent real-time systems. We present a simple variant which builds methodically on set theory, and is thus suitable for use by programmers with little formal methods experience.
Action systems are a formalism for representing concurrent behaviours, based on interleaved atomic a...
Event-B is a formal method for system-level modelling and analysis, which uses logic and set theory ...
. The most natural, compositional, way of modeling real-time systems uses a dense domain for time. T...
Timed-trace formalisms have emerged as a powerful method for specifying and reasoning about concurre...
. We extend the specification language of temporal logic, the corresponding verification framework, ...
Once strictly the province of assembly-language programmers, real-time computing has developed into ...
AbstractThe theory of the natural numbers with linear order and monadic predicates underlies proposi...
Formal methods have proved to be highly beneficial in the requirements specification phase of softwa...
We present a new temporal logic for the specification and verification of real-time systems. This lo...
Formal methods have proved to be highly beneficial in the requirements specification phase of softwa...
Abstract: The theory of the natural numbers with linear order and monadic predicates underlies propo...
This paper presents an assume-guarantee specification theory for modular synthesis and verification ...
Real-Time Logic is a formal notation for reasoning about temporal behaviour. Z is a general purpose ...
In this paper we show how trace theory can be used to describe the behaviour of "concurrent systems"...
We propose a real-time extension to the patterns specification language of Dwyer et al. Our contribu...
Action systems are a formalism for representing concurrent behaviours, based on interleaved atomic a...
Event-B is a formal method for system-level modelling and analysis, which uses logic and set theory ...
. The most natural, compositional, way of modeling real-time systems uses a dense domain for time. T...
Timed-trace formalisms have emerged as a powerful method for specifying and reasoning about concurre...
. We extend the specification language of temporal logic, the corresponding verification framework, ...
Once strictly the province of assembly-language programmers, real-time computing has developed into ...
AbstractThe theory of the natural numbers with linear order and monadic predicates underlies proposi...
Formal methods have proved to be highly beneficial in the requirements specification phase of softwa...
We present a new temporal logic for the specification and verification of real-time systems. This lo...
Formal methods have proved to be highly beneficial in the requirements specification phase of softwa...
Abstract: The theory of the natural numbers with linear order and monadic predicates underlies propo...
This paper presents an assume-guarantee specification theory for modular synthesis and verification ...
Real-Time Logic is a formal notation for reasoning about temporal behaviour. Z is a general purpose ...
In this paper we show how trace theory can be used to describe the behaviour of "concurrent systems"...
We propose a real-time extension to the patterns specification language of Dwyer et al. Our contribu...
Action systems are a formalism for representing concurrent behaviours, based on interleaved atomic a...
Event-B is a formal method for system-level modelling and analysis, which uses logic and set theory ...
. The most natural, compositional, way of modeling real-time systems uses a dense domain for time. T...