Your search keyword '"Angelo Montanari"' showing total 455 results

451. Multi-agent Cooperative Argumentation in Arg2P

Author

Giuseppe Pisano, Roberta Calegari, Andrea Omicini, Agostino Dovier, Angelo Montanari, Andrea Orlandini, and Giuseppe Pisano, Roberta Calegari, Andrea Omicini

Subjects

argumentation, arg2p, cooperative argumentation, multi-agent systems, cooperative reasoning

Abstract

We focus on cooperative argumentation and conversation in multi-agent systems by introducing an extension of the Arg2P technology that enables parallelisation and distribution of the argumentation process. The computational model & the implementation underpinning the Arg2P technology are presented and discussed.

Published

2023

452. Satisfiability and Model Checking for the Logic of Sub-Intervals under the Homogeneity Assumption

Author

Bozzelli, Laura, Molinari, Alberto, Montanari, Angelo, Peron, Adriano, Sala, Pietro, Bozzelli, L., Molinari, A., Montanari, A., Peron, A., Sala, P., Laura Bozzelli and Alberto Molinari and Angelo Montanari and Adriano Peron and Pietro Sala, Ioannis Chatzigiannakis and Piotr Indyk and Fabian Kuhn and Anca Muscholl, Bozzelli, Laura, Molinari, Alberto, Montanari, Angelo, Peron, Adriano, and Sala, P. i. e. t. r. o.

Subjects

FOS: Computer and information sciences, Expressiveness, Interval Temporal Logics, Model Checking, Computer Science - Logic in Computer Science, Computational Complexity, General Computer Science, Formal Languages and Automata Theory (cs.FL), Computer Science - Formal Languages and Automata Theory, Decidability, 0102 computer and information sciences, Expressivene, 01 natural sciences, Theoretical Computer Science, Model Checking, Interval Temporal Logic, Computer Science::Logic in Computer Science, Computational complexity, Interval temporal logic, Model checking, Satisfiability, Software, 000 Computer science, knowledge, general works, Expressiveness, Interval Temporal Logics, Interval Temporal Logic, Satisfiability, Model Checking, Decidability, Computational Complexity, Logic in Computer Science (cs.LO), TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, 010201 computation theory & mathematics, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Computer Science

Abstract

The expressive power of interval temporal logics (ITLs) makes them one of the most natural choices in a number of application domains, ranging from the specification and verification of complex reactive systems to automated planning. However, for a long time, because of their high computational complexity, they were considered not suitable for practical purposes. The recent discovery of several computationally well-behaved ITLs has finally changed the scenario. In this paper, we investigate the finite satisfiability and model checking problems for the ITL D, that has a single modality for the sub-interval relation, under the homogeneity assumption (that constrains a proposition letter to hold over an interval if and only if it holds over all its points). We first prove that the satisfiability problem for D, over finite linear orders, is PSPACE-complete, and then we show that the same holds for its model checking problem, over finite Kripke structures. In such a way, we enrich the set of tractable interval temporal logics with a new meaningful representative., Comment: arXiv admin note: text overlap with arXiv:1901.03880

Published

2022

453. Proceedings First Symposium on Games, Automata, Logic, and Formal Verification, GANDALF 2010, Minori (Amalfi Coast), Italy, 17-18th June 2010.

Author

Angelo Montanari, Margherita Napoli, and Mimmo Parente

Published

2010

454. Proceedings of the Third International Workshop on Temporal Representation and Reasoning, TIME-96, Key West, Florida, USA, May 19-20, 1996

Author

Luca Chittaro, Scott D. Goodwin, Howard J. Hamilton, and Angelo Montanari

Published

1996

455. Model checking well-behaved fragments of HS: The (almost) final picture

Author

Molinari, A., Montanari, A., Peron, A., Pietro SALA, Alberto Molinari and Angelo Montanari and Adriano Peron and Pietro Sala, Delgrande J.,Baral C.,Wolter F., Alberto, Molinari, Angelo, Montanari, Peron, Adriano, and Pietro, Sala

Subjects

Computational Complexity, Temporal logic Interval temporal logic, Knowledge representation, System verifications, Model checker, Point-based, Model checking algorithm, Model Checking, Interval Temporal Logics, Computational Complexity, Model checking problem, Model checking Interval Temporal Logic Computational Complexity, Model Checking, Interval Temporal Logics

Abstract

Model checking is one of the most powerful and widespread tools for system verification with applications in many areas of computer science and artificial intelligence. The large majority of model checkers deal with properties expressed in point-based temporal logics, such as LTL and CTL. However, there exist relevant properties of systems which are inherently interval-based. Model checking algorithms for interval temporal logics (ITLs) have recently been proposed to check interval properties of computations. As the model checking problem for full Halpern and Shoham's ITL (HS for short) turns out to be decidable, but computationally heavy, research has focused on its well-behaved fragments. In this paper, we provide an almost final picture of the computational complexity of model checking for HS fragments with modalities for (a subset of) Allen's relations meets, met by, starts, and ends.