In [7], an algebra for timed automata has been introduced. In this article, we introduce a syntactic characterisation of finite timed automata in terms of that process algebra. We show that regular processes, i.e., processes defined using finitely many guarded recursive equations, are as expressive as finite timed automata. The proof uses only the axiom system and unfolding of recursive equations. Since the proofs are basically algorithms, we also provide an effective method to translate from one model into the other
The three classical process algebras CCS, CSP and ACP present several differences in their respectiv...
This paper presents a novel application of an untimed process algebra formalism to a class of timing...
In the field of formal verification of real-time systems, major developments have been recorded in t...
Abst rac t. In [7], an algebra for timed automata has been introduced. In this article, we introduce...
A specification formalism for reactive systems defines a class of $\omega$-languages. We call a spec...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
Abstract. A language for representing timed automata is introduced. Its semantics i defined in terms...
While different algebraic structures have been proposed for the treatment of concurrency, finding so...
: Timed automata are finite-state machines constrained by timing requirements so that they accept ti...
Timed languages are introduced as a class of languages that accepts timed words: sequences of events...
AbstractA real-time process algebra, called ACSR, has been developed to facilitate the specification...
AbstractIn this paper, we study the concurrent behaviors of timers with arbitrary delays. Timers are...
The three classical process algebras CCS, CSP and ACP present several differences in their respectiv...
Numerous formalisms exist to specify delay-insensitive computations and their implementations. It is...
The three classical process algebras CCS, CSP and ACP present several differences in their respectiv...
This paper presents a novel application of an untimed process algebra formalism to a class of timing...
In the field of formal verification of real-time systems, major developments have been recorded in t...
Abst rac t. In [7], an algebra for timed automata has been introduced. In this article, we introduce...
A specification formalism for reactive systems defines a class of $\omega$-languages. We call a spec...
. We propose timed (finite) automata to model the behavior of realtime systems over time. Our defini...
AbstractWe propose timed (finite) automata to model the behavior of real-time systems over time. Our...
Abstract. A language for representing timed automata is introduced. Its semantics i defined in terms...
While different algebraic structures have been proposed for the treatment of concurrency, finding so...
: Timed automata are finite-state machines constrained by timing requirements so that they accept ti...
Timed languages are introduced as a class of languages that accepts timed words: sequences of events...
AbstractA real-time process algebra, called ACSR, has been developed to facilitate the specification...
AbstractIn this paper, we study the concurrent behaviors of timers with arbitrary delays. Timers are...
The three classical process algebras CCS, CSP and ACP present several differences in their respectiv...
Numerous formalisms exist to specify delay-insensitive computations and their implementations. It is...
The three classical process algebras CCS, CSP and ACP present several differences in their respectiv...
This paper presents a novel application of an untimed process algebra formalism to a class of timing...
In the field of formal verification of real-time systems, major developments have been recorded in t...