Add to ORKGRB+-ATL is an extension of ATL where it is possible to model consumption and production of several resources by a set of agents. The model-checking problem for RB+-ATL is known to be decidable. However the only available model-checking algorithm for RB+-ATL uses a forward search of the state space, and hence does not have an efficient symbolic implementation. In this paper, we consider a fragment of RB+-ATL, 1RB+-ATL, that allows only one resource type. We give a symbolic model-checking algorithm for this fragment of RB+-ATL, and evaluate the performance of an MCMAS-based implementation of the algorithm on an example problem that can be scaled to large state spaces
Model checking is a verification technique that performs an exhaustive search among the states of sa...
Model-checking resource logics with production and consumption of resources is a computationally har...
Model checking is an efficient technique for verifying properties on asynchronous systems. Unfortuna...
RB+-ATL is an extension of ATL where it is possible to model consumption and production of several r...
RB±ATL is an extension of ATL where it is possible to model consumption and production of several re...
In this paper we present a symbolic implementation of a model checking algorithm for the verificatio...
In this paper we present a symbolic implementation of a model checking algorithm for the verificati...
Several logics for expressing coalitional ability under resource bounds have been proposed and studi...
National audienceIn this work, we begin by providing a general overview of the model-checking result...
We revisit decidability results for resource-bounded logics and use decision problems on vector addi...
International audienceResource-aware logics to represent strategic abilities in multi-agent systems ...
Alternating Time Temporal Logic (ATL) is widely used for the verification of multi-agent systems. We...
Several logics for expressing coalitional ability under resource bounds have been proposed and studi...
Multi-Agent Systems are increasingly complex, and the problem of their verification and validation i...
Abstract. It has been shown that bounded model checking using a SAT solver can solve many verificati...
Model checking is a verification technique that performs an exhaustive search among the states of sa...
Model-checking resource logics with production and consumption of resources is a computationally har...
Model checking is an efficient technique for verifying properties on asynchronous systems. Unfortuna...
RB+-ATL is an extension of ATL where it is possible to model consumption and production of several r...
RB±ATL is an extension of ATL where it is possible to model consumption and production of several re...
In this paper we present a symbolic implementation of a model checking algorithm for the verificatio...
In this paper we present a symbolic implementation of a model checking algorithm for the verificati...
Several logics for expressing coalitional ability under resource bounds have been proposed and studi...
National audienceIn this work, we begin by providing a general overview of the model-checking result...
We revisit decidability results for resource-bounded logics and use decision problems on vector addi...
International audienceResource-aware logics to represent strategic abilities in multi-agent systems ...
Alternating Time Temporal Logic (ATL) is widely used for the verification of multi-agent systems. We...
Several logics for expressing coalitional ability under resource bounds have been proposed and studi...
Multi-Agent Systems are increasingly complex, and the problem of their verification and validation i...
Abstract. It has been shown that bounded model checking using a SAT solver can solve many verificati...
Model checking is a verification technique that performs an exhaustive search among the states of sa...
Model-checking resource logics with production and consumption of resources is a computationally har...
Model checking is an efficient technique for verifying properties on asynchronous systems. Unfortuna...