AbstractThis paper is an attempt to apply the reasoning principles and calculational style underlying the so-called Bird-Meertens formalism to the design of process calculi, parametrized by a behaviour model. In particular, basically equational and pointfree proofs of process properties are given, relying on the universal characterisation of anamorphisms and therefore avoiding the explicit construction of bisimulations. The developed calculi can be directly implemented on a functional language supporting coinductive types, which provides a convenient way to prototype processes and assess alternative design decisions
The Bird-Meertens Formalism, or `Squiggol', is a calculus for the construction of programs from thei...
Labeled state-to-function transition systems, FuTS for short, are characterized by transitions which...
Abstract. This paper presents a logical approach to the translation of functional calculi into concu...
This paper is an attempt to apply the reasoning principles and calculational style underlying the so...
AbstractThis paper is an attempt to apply the reasoning principles and calculational style underlyin...
This paper suggests functional programming languages with coinductive types as suitable devices for ...
Abstract. We present two process frameworks: the action calculi of Mil-ner, and the fusion systems o...
Several approaches have been proposed to model biological systems by means of the formal techniques ...
Over the past decade much attention has been devoted to the study of process calculi such as CCS, AC...
Abstract. A formulation of semantic theories for processes which is based on reduction relation and ...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures, logic...
Applied process calculi include advanced programming constructs such as type systems, communication ...
We develop a (co)algebraic framework to study a family of process calculi with monadic branching str...
In this paper a process is viewed as a labeled graph modulo bisimulation equivalence. Three topics a...
A universal process of a process calculus is one that, given the G\"{o}delindex of a process of a ce...
The Bird-Meertens Formalism, or `Squiggol', is a calculus for the construction of programs from thei...
Labeled state-to-function transition systems, FuTS for short, are characterized by transitions which...
Abstract. This paper presents a logical approach to the translation of functional calculi into concu...
This paper is an attempt to apply the reasoning principles and calculational style underlying the so...
AbstractThis paper is an attempt to apply the reasoning principles and calculational style underlyin...
This paper suggests functional programming languages with coinductive types as suitable devices for ...
Abstract. We present two process frameworks: the action calculi of Mil-ner, and the fusion systems o...
Several approaches have been proposed to model biological systems by means of the formal techniques ...
Over the past decade much attention has been devoted to the study of process calculi such as CCS, AC...
Abstract. A formulation of semantic theories for processes which is based on reduction relation and ...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures, logic...
Applied process calculi include advanced programming constructs such as type systems, communication ...
We develop a (co)algebraic framework to study a family of process calculi with monadic branching str...
In this paper a process is viewed as a labeled graph modulo bisimulation equivalence. Three topics a...
A universal process of a process calculus is one that, given the G\"{o}delindex of a process of a ce...
The Bird-Meertens Formalism, or `Squiggol', is a calculus for the construction of programs from thei...
Labeled state-to-function transition systems, FuTS for short, are characterized by transitions which...
Abstract. This paper presents a logical approach to the translation of functional calculi into concu...