Abstract
Assumption-based argumentation is a concrete but generalpurpose argumentation framework that has been shown, in particular, to generalise several existing mechanisms for non-monotonic reasoning, and is equipped with a computational counterpart and an implemented system. It can thus serve as a computational tool for argumentation-based reasoning, and for automatising the process of finding solutions to problems that can be understood in assumption-based argumentation terms. In this paper we consider the problem of reasoning with defeasible and strict rules, for example as required in a legal setting. We provide a mapping of defeasible reasoning into assumption-based argumentation, and show that the framework obtained has properties of closedness and consistency, that have been advocated elsewhere as important for defeasible reasoning in the presence of strict rules. Whereas other argumentation approaches have been proven closed and consistent under some specific semantics, we prove that assumption-based argumentation is closed and consistent under all argumentation semantics.
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References
Antoniou, G., et al.: Representation results for defeasible logic. ACM Transactions on Computational Logic 2(2), 255–287 (2001)
Billington, D., Rock, A.: Propositional plausible logic: Introduction and implementation. Studia Logica 67(2), 243–269 (2001)
Bondarenko, A., et al.: An abstract, argumentation-theoretic framework for default reasoning. Artificial Intelligence 93(1-2), 63–101 (1997)
Caminada, M., Amgoud, L.: An axiomatic account of formal argumentation. In: Proc. AAAI (2005)
Dung, P.M.: The acceptability of arguments and its fundamental role in non-monotonic reasoning and logic programming and n-person game. Artificial Intelligence 77, 321–357 (1995)
Dung, P., Kowalski, R., Toni, F.: Dialectic proof procedures for assumption-based, admissible argumentation. Artificial Intelligence 170, 114–159 (2006)
Dung, P., Mancarella, P., Toni, F.: A dialectic procedure for sceptical, assumption-based argumentation. In: 1st International Conference on Computational Models of Argument (COMMA 2006) (September 2006)
Dung, P., Mancarella, P., Toni, F.: Computing ideal sceptical argumentation. Artificial Intelligence, Special Issue on Argumentation in Artificial Intelligence (to appear, 2007)
Garcia, A., Simari, G.: Defeasible logic programming: An argumentative approach. Journal of Theory and Practice of Logic Prog. 4(1-2), 95–138 (2004)
Governatori, G., et al.: A formal approach to protocols and strategies for (legal) negotiation. In: Procedings of the 8th International Conference on Artificial Intelligence and Law, pp. 168–177 (2001)
Governatori, G., et al.: Argumentation semantics for defeasible logics. Journal of Logic and Computation 14(5), 675–702 (2004)
Grosof, B.N.: Prioritized conflict handling for logic programs. In: Proc. Int. Logic Programming Symposium, pp. 197–211 (1996)
Kakas, A.C., Moraitis, P.: Argumentation based decision making for autonomous agents. In: AAMAS, pp. 883–890 (2003)
Kowalski, R.A., Toni, F.: Abstract argumentation. Journal of Artificial Intelligence and Law, Special Issue on Logical Models of Argumentation 4(3-4), 275–296 (1996)
Nute, D.: Defeasible reasoning. In: Fetzer, J.H. (ed.) Aspects of Artificial Intelligence, pp. 251–288. Kluwer Academic Publishers, Dordrecht (1987)
Nute, D.: Apparent obligation. In: Nute, D. (ed.) Defeasible Deontic Logic, pp. 287–316. Kluwer Academic Publishers, Dordrecht (1997)
Pollock, J.: Defeasible reasoning. Cognitive Science 11(4), 481–518 (1987)
Prakken, H., Sartor, G.: Argument-based extended logic programming with defeasible priorities. Journal of Applied Non-Classical Logics 7(1), 25–75 (1997)
Prakken, H., Sartor, G.: The role of logic in computational models of legal argument: A critical survey. In: Kakas, A.C., Sadri, F. (eds.) Computational Logic: Logic Programming and Beyond. LNCS (LNAI), vol. 2408, pp. 342–381. Springer, Heidelberg (2002)
Toni, F., Kowalski, R.A.: Reduction of abductive logic programs to normal logic programs. In: ICLP, pp. 367–381 (1995)
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Toni, F. (2008). Assumption-Based Argumentation for Closed and Consistent Defeasible Reasoning. In: Satoh, K., Inokuchi, A., Nagao, K., Kawamura, T. (eds) New Frontiers in Artificial Intelligence. JSAI 2007. Lecture Notes in Computer Science(), vol 4914. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-78197-4_36
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DOI: https://doi.org/10.1007/978-3-540-78197-4_36
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