Abstract
In this paper we address the problem of merging qualitative constraints networks (QCNs). We propose a rational merging procedure for QCNs. It is based on translations of QCNs into propositional formulas, and take advantage of propositional merging operators.
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References
Allen, J.-F.: An interval-based representation of temporal knowledge. In: IJCAI, pp. 221–226 (1981)
Benferhat, S., Dubois, D., Prade, H., Williams, M.-A.: A practical approach to fusing prioritized knowledge bases. In: Barahona, P., Alferes, J.J. (eds.) EPIA 1999. LNCS, vol. 1695, pp. 222–236. Springer, Heidelberg (1999)
Cholvy, L.: Reasoning about merging information. In: Handbook of Defeasible Reasoning and Uncertainty Management Systems, vol. 3, pp. 233–263 (1998)
Condotta, J.-F., D’Almeida, D.: Qualitative constraints representation for the time and space in SAT. In: ICTAI, pp. 74–77 (2007)
Condotta, J.-F., Kaci, S., Schwind, N.: A framework for merging qualitative constraints networks. In: FLAIRS (2008)
Drake, L., Frisch, A.M., Gent, I.P., Walsh, T.: Automatically reformulating SAT-encoded CSPs. In: CP (2002)
Freksa, C.: Temporal reasoning based on semi-intervals. Artificial Intelligence 54(1), 199–227 (1992)
Gent, I.P.: Arc consistency in SAT. In: ECAI, pp. 121–125 (2002)
Gorogiannis, N., Hunter, A.: Implementing semantic merging operators using binary decision diagrams. International Journal of Approximate Reasoning 49(1), 234–251 (2008)
Hué, J., Papini, O., Würbel, E.: Removed sets fusion: Performing off the shelf. In: ECAI (July 2008)
Konieczny, S., Lang, J., Marquis, P.: Distance-based merging: A general framework and some complexity results. In: KR, pp. 97–108 (2002)
Konieczny, S., Pérez, R.P.: On the logic of merging. In: KR, pp. 488–498 (1998)
Konieczny, S., Pérez, R.P.: Merging with integrity constraints. In: Hunter, A., Parsons, S. (eds.) ECSQARU 1999. LNCS, vol. 1638, pp. 233–244. Springer, Heidelberg (1999)
Konieczny, S., Pérez, R.P.: Merging information under constraints: a logical framework. Journal of Logic and Computation 12(5), 773–808 (2002)
Ligozat, G.: On generalized interval calculi. In: AAAI, Anaheim, CA, pp. 234–240 (1991)
Ligozat, G.: Reasoning about cardinal directions. Journal of Visual Languages and Computing 9(1), 23–44 (1998)
Lin, J.: Integration of weighted knowledge bases. Artificial Intelligence 83, 363–378 (1996)
Mitra, D.: Modeling and reasoning with star calculus. In: Annals of Mathematics and Artificial Intelligence (2004)
Nebel, B., Bürckert, H.-J.: Reasoning about temporal relations: A maximal tractable subclass of allen’s interval algebra. In: AAAI, Seattle, WA, pp. 356–361 (1994)
Pham, D.N., Thornton, J., Sattar, A.: Towards an efficient SAT encoding for temporal reasoning. In: Benhamou, F. (ed.) CP 2006. LNCS, vol. 4204, pp. 421–436. Springer, Heidelberg (2006)
Randell, D.-A., Cui, Z., Cohn, A.: A spatial logic based on regions and connection. In: KR, pp. 165–176 (1992)
Revesz, P.Z.: On the semantics of theory change: Arbitration between old and new information. In: PODS, Washington, DC, pp. 71–82 (1993)
Revesz, P.Z.: On the semantics of arbitration. Journal of Algebra and Computation 7(2), 133–160 (1997)
Vilain, M., Kautz, H., Van Beek, P.: Constraint propagation algorithms for temporal reasoning: A revised report. In: Readings in Qualitative Reasoning about Physical Systems, pp. 373–381. Kaufmann, San Mateo (1990)
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Condotta, JF., Kaci, S., Marquis, P., Schwind, N. (2009). Merging Qualitative Constraints Networks Using Propositional Logic. In: Sossai, C., Chemello, G. (eds) Symbolic and Quantitative Approaches to Reasoning with Uncertainty. ECSQARU 2009. Lecture Notes in Computer Science(), vol 5590. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-02906-6_31
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DOI: https://doi.org/10.1007/978-3-642-02906-6_31
Publisher Name: Springer, Berlin, Heidelberg
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