Add to ORKGSpecifications of sytem behaviour tend to become large. Analysis of such specifications requires automated tools. Most attention hitherto has been invested in fully automatic tools. We however believe that in many cases human intervention is required and we therefore propose a number of computer tools to transform process specifications. The concrete manipulation tools that we describe can eliminate constants, redundant sum variables and parameters, and allow to split variables ranging over compex datatypes. These tools can transform specifications with large finite state spaces to variants with state spaces being a fraction of their original size, and transform specifications wich infinite state spaces to those with finite state spaces
This paper explores the role for mechanised support for refining specifications to executable progra...
Abstract. There exist many formalisms for modeling the behavior of (software) systems. These formali...
Over the years, mathematical models have become increasingly complex. Rarely can we accurately model...
Specifications of sytem behaviour tend to become large. Analysis of such specifications requires aut...
µCRL [13] is a language for specifying and verifying distributed systems in an algebraic fashion. It...
An extension of Milner's CCS is presented. The language takes into account a number of resourc...
We present a new method for fighting the state space explosion of process algebraic specifications, ...
AbstractThis article presents an extension of the formalism of algebraic specifications to the speci...
Specification morphisms underlie the refinement of algebraic specifications and provide the logical ...
In a model-based software systems development formal specifications of the components of the system ...
Following the development of formalisms based on data and behavioural aspects of the system, there a...
Abstract. We present a new method for fighting the state space explo-sion of process algebraic speci...
We present an algorithm for the decomposition of processes in a process algebraic framework. Decompo...
In this paper we present an algorithm for the decomposition of processes in a process algebraic fram...
This paper describes a toolkit that assists in the task of generating abstract approximations of pro...
This paper explores the role for mechanised support for refining specifications to executable progra...
Abstract. There exist many formalisms for modeling the behavior of (software) systems. These formali...
Over the years, mathematical models have become increasingly complex. Rarely can we accurately model...
Specifications of sytem behaviour tend to become large. Analysis of such specifications requires aut...
µCRL [13] is a language for specifying and verifying distributed systems in an algebraic fashion. It...
An extension of Milner's CCS is presented. The language takes into account a number of resourc...
We present a new method for fighting the state space explosion of process algebraic specifications, ...
AbstractThis article presents an extension of the formalism of algebraic specifications to the speci...
Specification morphisms underlie the refinement of algebraic specifications and provide the logical ...
In a model-based software systems development formal specifications of the components of the system ...
Following the development of formalisms based on data and behavioural aspects of the system, there a...
Abstract. We present a new method for fighting the state space explo-sion of process algebraic speci...
We present an algorithm for the decomposition of processes in a process algebraic framework. Decompo...
In this paper we present an algorithm for the decomposition of processes in a process algebraic fram...
This paper describes a toolkit that assists in the task of generating abstract approximations of pro...
This paper explores the role for mechanised support for refining specifications to executable progra...
Abstract. There exist many formalisms for modeling the behavior of (software) systems. These formali...
Over the years, mathematical models have become increasingly complex. Rarely can we accurately model...