This paper presents a novel linear process algebraic format for probabilistic automata. The key ingredient is a symbolic transformation of probabilistic process algebra terms that incorporate data into this linear format while preserving strong probabilistic bisimulation. This generalises similar techniques for traditional process algebras with data, and — more importantly — treats data and data-dependent probabilistic choice in a fully symbolic manner, paving the way to the symbolic analysis of parameterised probabilistic systems
AbstractThis paper introduces a general framework of probabilistic and nondeterministic recursive pr...
Process algebras with abstraction have been widely used for the specification and verification of no...
AbstractWe present a semantics-based technique for analysing probabilistic properties of imperative ...
This paper presents a novel linear process-algebraic format for probabilistic automata. The key ingr...
AbstractThis paper presents a novel linear process-algebraic format for probabilistic automata. The ...
Abstract—This paper presents a novel linear process alge-braic format for probabilistic automata. Th...
This paper presents a novel linear process algebraic format for probabilistic automata. The key ingr...
This paper presents a novel linear process-algebraic format for probabilistic automata. The key ingr...
This paper presents SCOOP: a tool that symbolically optimises process-algebraic specifications of pr...
This presentation introduces a process-algebraic framework with data for modelling and generating Ma...
AbstractWe investigate the construction of linear operators representing the semantics of probabilis...
Every day we witness the fast development of the hardware and software technology. This, of course, ...
This thesis provides an algebraic modelling and verification of probabilistic concurrent systems in ...
In this presentation we introduce a novel technique for state space reduction of probabilistic speci...
This paper treats a probabilistic version of (a subset of) the process algebra LOTOS. It incorporate...
AbstractThis paper introduces a general framework of probabilistic and nondeterministic recursive pr...
Process algebras with abstraction have been widely used for the specification and verification of no...
AbstractWe present a semantics-based technique for analysing probabilistic properties of imperative ...
This paper presents a novel linear process-algebraic format for probabilistic automata. The key ingr...
AbstractThis paper presents a novel linear process-algebraic format for probabilistic automata. The ...
Abstract—This paper presents a novel linear process alge-braic format for probabilistic automata. Th...
This paper presents a novel linear process algebraic format for probabilistic automata. The key ingr...
This paper presents a novel linear process-algebraic format for probabilistic automata. The key ingr...
This paper presents SCOOP: a tool that symbolically optimises process-algebraic specifications of pr...
This presentation introduces a process-algebraic framework with data for modelling and generating Ma...
AbstractWe investigate the construction of linear operators representing the semantics of probabilis...
Every day we witness the fast development of the hardware and software technology. This, of course, ...
This thesis provides an algebraic modelling and verification of probabilistic concurrent systems in ...
In this presentation we introduce a novel technique for state space reduction of probabilistic speci...
This paper treats a probabilistic version of (a subset of) the process algebra LOTOS. It incorporate...
AbstractThis paper introduces a general framework of probabilistic and nondeterministic recursive pr...
Process algebras with abstraction have been widely used for the specification and verification of no...
AbstractWe present a semantics-based technique for analysing probabilistic properties of imperative ...