Abstract
The use of preferences is usual in the natural language and it must be taken into account in the diverse theoretical frameworks focused on the knowledge management in databases. This paper exploits the possibility of considering preferences in a (discrete) fuzzy concept lattice framework.
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Antoni, L., Krajci, S., Kridlo, O., Macek, B., Pisková, L.: On heterogeneous formal contexts. Fuzzy Sets Syst. 234, 22–33 (2014)
Bělohlávek, R., Funiokova, T., Vychodil, V.: Galois connections with hedges. In: Proceedings of IFSA World Congress, vol. II, pp. 1250–1255. Springer (2005)
Burusco, A., Fuentes-González, R.: Construction of the \({L}\)-fuzzy concept lattice. Fuzzy Sets Syst. 97(1), 109–114 (1998)
Chen, J., Li, J., Lin, Y., Lin, G., Ma, Z.: Relations of reduction between covering generalized rough sets and concept lattices. Inf. Sci. 304, 16–27 (2015)
Cornejo, M.E., Medina, J., Ramírez-Poussa, E.: A comparative study of adjoint triples. Fuzzy Sets Syst. 211, 1–14 (2013)
Cornejo, M.E., Medina, J., Ramírez-Poussa, E.: Multi-adjoint algebras versus non-commutative residuated structures. Int. J. Approximate Reasoning 66, 119–138 (2015)
Medina, J.: Relating attribute reduction in formal, object-oriented and property-oriented concept lattices. Comput. Math. Appl. 64(6), 1992–2002 (2012)
Medina, J., Ojeda-Aciego, M.: Multi-adjoint t-concept lattices. Inf. Sci. 180(5), 712–725 (2010)
Medina, J., Ojeda-Aciego, M.: On multi-adjoint concept lattices based on heterogeneous conjunctors. Fuzzy Sets Syst. 208, 95–110 (2012)
Medina, J., Ojeda-Aciego, M., Ruiz-Calviño, J.: Formal concept analysis via multi-adjoint concept lattices. Fuzzy Sets Syst. 160(2), 130–144 (2009)
Medina, J., Ojeda-Aciego, M., Valverde, A., Vojtáš, P.: Towards biresiduated multi-adjoint logic programming. In: Conejo, R., Urretavizcaya, M., Pérez-de-la-Cruz, J.-L. (eds.) CAEPIA/TTIA -2003. LNCS (LNAI), vol. 3040, pp. 608–617. Springer, Heidelberg (2004). doi:10.1007/978-3-540-25945-9_60
Miller, G.A.: The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychol. Rev. 63(2), 81–87 (1956)
Romero, F.P., Julián-Iranzo, P., Soto, A., Ferreira-Satler, M., Gallardo-Casero, J.: Classifying unlabeled short texts using a fuzzy declarative approach. Lang. Resour. Eval. 47(1), 151–178 (2013)
Rubio-Manzano, C., Julián-Iranzo, P.: A fuzzy linguistic prolog and its applications. J. Intell. Fuzzy Syst. 26(3), 1503–1516 (2014)
Rubio-Manzano, C., Julián-Iranzo, P.: Incorporation of abstraction capability in a logic-based framework by using proximity relations. J. Intell. Fuzzy Syst. 29(4), 1671–1683 (2015)
Yao, Y.: Rough-set concept analysis: Interpreting RS-definable concepts based on ideas from formal concept analysis. Inf. Sci. 346–347, 442–462 (2016)
Zhang, R., Xiong, S., Chen, Z.: Construction method of concept lattice based on improved variable precision rough set. Neurocomputing 188, 326–338 (2016)
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Cornejo, M.E., Medina, J., Ramírez-Poussa, E., Rubio-Manzano, C. (2016). Multi-adjoint Concept Lattices, Preferences and Bousi Prolog. In: Flores, V., et al. Rough Sets. IJCRS 2016. Lecture Notes in Computer Science(), vol 9920. Springer, Cham. https://doi.org/10.1007/978-3-319-47160-0_30
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DOI: https://doi.org/10.1007/978-3-319-47160-0_30
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