AbstractWe present a methodology for the verification of multi-agent systems, whose properties are specified by means of a modal logic that includes a temporal, an epistemic, and a modal operator to reason about correct behaviour of agents. The verification technique relies on model checking via ordered binary decision diagrams. We present an implementation and report on experimental results for two scenarios: the bit transmission problem with faults and the protocol of the dining cryptographers
We present MCMAS, a model checker for the verification of multi-agent systems. MCMAS supports effici...
We propose a framework for the verification of specification in multiagent systems by symbolic mode...
Model checking is a promising approach to automatic verification, which has concentrated on specific...
AbstractWe present a methodology for the verification of multi-agent systems, whose properties are s...
We investigate the problem of the verification of epistemic properties of multiagent systems via mod...
We present a novel approach to the verification of multi-agent systems using bounded model checking ...
A multi-agent system (MAS) is usually understood as a system composed of interacting autonomous agen...
AbstractWe propose a framework for the verification of multi-agent systems' specification by symboli...
We present an algorithm for model checking temporal-epistemic properties of multi-agent systems, exp...
This paper addresses the problem of verification of multiagent systems by means of symbolic model c...
AbstractWe present a compiler that translates a multi-agent systems specification given in the forma...
We present a framework for verifying temporal and epistemic properties of multi-agent systems by me...
We introduce Strategy Logic with Knowledge, a novel formalism to reason about knowledge and strategi...
While temporal logic in its various forms has proven essential to reason about reactive systems, age...
A key step in formal verification is the translation of requirements into logic formulae. Various fl...
We present MCMAS, a model checker for the verification of multi-agent systems. MCMAS supports effici...
We propose a framework for the verification of specification in multiagent systems by symbolic mode...
Model checking is a promising approach to automatic verification, which has concentrated on specific...
AbstractWe present a methodology for the verification of multi-agent systems, whose properties are s...
We investigate the problem of the verification of epistemic properties of multiagent systems via mod...
We present a novel approach to the verification of multi-agent systems using bounded model checking ...
A multi-agent system (MAS) is usually understood as a system composed of interacting autonomous agen...
AbstractWe propose a framework for the verification of multi-agent systems' specification by symboli...
We present an algorithm for model checking temporal-epistemic properties of multi-agent systems, exp...
This paper addresses the problem of verification of multiagent systems by means of symbolic model c...
AbstractWe present a compiler that translates a multi-agent systems specification given in the forma...
We present a framework for verifying temporal and epistemic properties of multi-agent systems by me...
We introduce Strategy Logic with Knowledge, a novel formalism to reason about knowledge and strategi...
While temporal logic in its various forms has proven essential to reason about reactive systems, age...
A key step in formal verification is the translation of requirements into logic formulae. Various fl...
We present MCMAS, a model checker for the verification of multi-agent systems. MCMAS supports effici...
We propose a framework for the verification of specification in multiagent systems by symbolic mode...
Model checking is a promising approach to automatic verification, which has concentrated on specific...