Home Quantifiers on L-algebras
Article
Licensed
Unlicensed Requires Authentication

Quantifiers on L-algebras

  • Lavinia Corina Ciungu EMAIL logo
Published/Copyright: December 4, 2022
Become an author with De Gruyter Brill
Author Information Explore this Subject
Mathematica Slovaca
From the journal Mathematica Slovaca Volume 72 Issue 6

Abstract

In this paper, we introduce the notion of monadic L-algebras and we study properties of these new structures. We define and investigate the monadic ideals of a monadic L-algebra, and we characterize the monadic ideal generated by a subset of a monadic L-algebra. We define the existential and universal quantifiers on semiregular L-algebras with negation, and we investigate certain properties of these structures. In this sense, we prove that there exists a one to one correspondence between existential and universal quantifiers. We show that any pair of strict quantifiers on a semiregular L-algebra with negation is a monadic operator.

Keywords: L-algebra; monadic L-algebra; monadic ideal; existential quantifier; universal quantifier; functional monadic L-algebra
MSC 2010: 03G25; 06F05; 03G10

  1. ( Communicated by Anatolij Dvurečenskij )

Acknowledgement

The author is very grateful to the anonymous referees for their useful remarks and suggestions on the subject that helped improving the presentation.

References

[1] Abad, M.: Estructuras cíclica y monádica de un álgebra de Łukasiewicz, Ph.D. Thesis, Notas de Lógica Matemática, vol. 36, Universidad Nacional del Sur, Instituto de Matemática, Bahía Blanca, 1988, viii+124.Search in Google Scholar

[2] Bezhanishvili, G.: Varieties of monadic Heyting algebras I, Stud. Log. 61 (1998), 367–402.10.1023/A:1005073905902Search in Google Scholar

[3] Bosbach, B.: Komplementäre Halbgruppen. Axiomatik und Aritmetik, Fund. Math. 64 (1969), 257–287.10.4064/fm-64-3-257-287Search in Google Scholar

[4] Bosbach, B.: Concerning cone algebras, Algebra Universalis 15 (1982), 58–66.10.1007/BF02483708Search in Google Scholar

[5] Castaño, D.—Cimadamore, C.—Díaz Varela, J. P.–Rueda, L.: Monadic BL-algebras: The equivalent algebraic semantics of H ájek’s monadic fuzzy logic, Fuzzy Sets and Systems 320 (2017), 40–59.10.1016/j.fss.2016.12.007Search in Google Scholar

[6] Chajda, I.–Kolaříc, M.: Monadic basic algebras, Acta Univ. Palacki. Olomuc., Fac. Rer. Nat. Mathematica 47 (2008), 27–36.Search in Google Scholar

[7] Cimadamore, C.—Díaz Varela, J. P.: Monadic MV-algebras I: a study of subvarieties, Algebra Universalis 71 (2014), 71–100.10.1007/s00012-014-0266-3Search in Google Scholar

[8] Cimadamore, C.—Díaz Varela, J. P.: Monadic Wajsberg hoops, Rev. Un. Mat. Argentina 57 (2016), 63–83.Search in Google Scholar

[9] Ciungu, L. C.: Non-commutative Multiple-Valued Logic Algebras, Springer, Cham, Heidelberg, New York, Dordrecht, London, 2014.10.1007/978-3-319-01589-7Search in Google Scholar

[10] Ciungu, L. C.: Monadic pseudo BE-algebras, Math. Slovaca 70 (2020), 1013–1040.10.1515/ms-2017-0411Search in Google Scholar

[11] Ciungu, L. C.: Monadic classes of quantum B-algebras, Soft Comput. 25 (2021), 1–14.10.1007/s00500-020-05404-7Search in Google Scholar

[12] Ciungu, L. C.: Results in L-algebras, Algebra Universalis 82(1) (2021), Art. No. 7.10.1007/s00012-020-00695-1Search in Google Scholar

[13] Di Nola, A.—Grigolia, R.: On monadic MV-algebras, Ann. Pure Appl. Logic 128 (2004), 125–139.10.1016/j.apal.2003.11.031Search in Google Scholar

[14] Drăgulici, D. D.: Quantifiers on BL-algebras, An. Univ. Bucur., Mat. Inform. 50 (2001), 29–42.Search in Google Scholar

[15] Drăgulici, D. D.: Polyadic BL-algebras. A representation theorem, J. Mult.-Valued Log. Soft Comput. 16 (2010), 265–302.Search in Google Scholar

[16] Galatos, N.—Jipsen, P.—Kowalski, T.—Ono, H.: Residuated Lattices: An Algebraic Glimpse at Substructural Logics, Elsevier, New York, 2007.Search in Google Scholar

[17] Georgescu, G.—IORGULESCU, A.: Pseudo MV-algebras, Mult.-Valued Logic 6 (2001), 95–135.Search in Google Scholar

[18] Ghorbani, S.: Monadic pseudo-equality algebras, Soft Comput. 23 (2019), 12937–12950.10.1007/s00500-019-04243-5Search in Google Scholar

[19] Grigolia, R.: Monadic BL-algebras, Georgian Math. J. 13 (2006), 267–276.10.1515/GMJ.2006.267Search in Google Scholar

[20] Hájek, P.: Metamathematics of Fuzzy Logic, Kluwer Acad. Publ., Dordrecht, 1998.10.1007/978-94-011-5300-3Search in Google Scholar

[21] Halmos, P.R.: Algebraic logic. I. Monadic Boolean algebras, Compos. Math. 12 (1956), 217–249.Search in Google Scholar

[22] Hua, X. J.: State L-algebras and derivations of L-algebras, Soft Comput. 25 (2021), 4201–4212.10.1007/s00500-021-05651-2Search in Google Scholar

[23] Iorgulescu, A.: Classes of BCK-algebras - Part III, Preprint Series of the Institute of Mathematics of the Romanian Academy 3(2004), 1–42.Search in Google Scholar

[24] Kondo, M.: On residuated lattices with universal quantifiers, Bull. Iranian Math. Soc. 41 (2015), 923–929.Search in Google Scholar

[25] Monteiro, A.—VARSAVSKY, O.: Álgebras de Heyting monádicas, Actas de las X Jornadas de la Unión Matemática Argentina, Bahía Blanca, 1957, 52–62.Search in Google Scholar

[26] Rachůnek, J.: A non-commutative generalization of MV-algebras, Czechoslovak Math. J. 52 (2002), 255–273.10.1023/A:1021766309509Search in Google Scholar

[27] Rachůnek, J.—ŠAlounová, D.: Monadic bounded commutative residuated -monoids, Order 25 (2008), 157–175.10.1007/s11083-008-9088-2Search in Google Scholar

[28] Rachůnek, J.—ŠAlounová, D.: Monadic GMV-algebras, Arch. Math. Logic 47 (2008), 277–297.10.1007/s00153-008-0086-2Search in Google Scholar

[29] Rachůnek, J.—ŠAlounová, D.: Monadic bounded residuated lattices, Order 30 (2013), 195–210.10.1007/s11083-011-9236-ySearch in Google Scholar

[30] Rutledge, J. D.: A Preliminary Investigation of the Infinitely-Many-Valued Predicate Calculus, Ph.D. Thesis, Cornell University, 1959, 112 pp.Search in Google Scholar

[31] Rump, W.: A decomposition theorem for square-free unitary solutions of the quantum Yang –Baxter equations, Adv. Math. 193 (2005), 40–55.10.1016/j.aim.2004.03.019Search in Google Scholar

[32] RUMP, W.: L-algebras, self-similarity, and -groups, J. Algebra 320 (2008), 2328–2348.10.1016/j.jalgebra.2008.05.033Search in Google Scholar

[33] Rump, W.—c, Y.: Intervals in -groups as L-algebras, Algebra Universalis 67 (2012), 121–130.10.1007/s00012-012-0172-5Search in Google Scholar

[34] Rump, W.: Right -groups, geometric Garside groups, and solutions of the quantum Yang –Baxter equation, J. Algebra 439 (2015), 470–510.10.1016/j.jalgebra.2015.04.045Search in Google Scholar

[35] Rump, W.: The structure group of an L-algebra is torsion-free, J. Group Theory 20 (2017), 309–324.10.1515/jgth-2016-0037Search in Google Scholar

[36] Rump, W.: The L-algebra of Hurwitz primes, J. Number Theory 190 (2018), 394–413.10.1016/j.jnt.2018.03.004Search in Google Scholar

[37] Rump, W.: Von Neumann algebras, L-algebras, Baer*-monoids, and Garside groups, Forum Math. 30 (2018), 973–995.10.1515/forum-2017-0108Search in Google Scholar

[38] Rump, W.: The structure group of a generalized orthomodular lattice, Stud. Logica 106 (2018), 85–100.10.1007/s11225-017-9726-zSearch in Google Scholar

[39] Subrahmanyam, N. V.: Bricks and pseudo MV-algebras are equivalent, Math. Slovaca 58 (2008), 131–142.10.2478/s12175-008-0061-8Search in Google Scholar

[40] Wang, J.—Xin, X.—He, P.: Monadic bounded hoops, Soft Comput. 22 (2018), 1749–1762.10.1007/s00500-017-2648-xSearch in Google Scholar

[41] Wang, J.—Xin, X.—He, P.: Monadic NM-algebras, Log. J. IGPL 27(6) (2019), 812–835.10.1093/jigpal/jzz005Search in Google Scholar

[42] Wu, Y.—Wang, J.—YANG, Y.: Lattice-ordered effect algebras and L-algebras, Fuzzy Sets and Systems 369 (2019), 103–113.10.1016/j.fss.2018.08.013Search in Google Scholar

[43] Wu, Y.—Yang, Y.: Orthomodular lattices as L-algebras, Soft Comput. 24 (2020), 14391–14400.10.1007/s00500-020-05242-7Search in Google Scholar

[44] Yang, Y.—Rump, W.: Pseudo-MV algebras as L-algebras, J. Mult.-Valued Logic Soft Comput. 19 (2012), 621–632.Search in Google Scholar

[45] Zaheriani, S. Y.—Zahiri, O.: Monadic BE-algebras, J. Intell. Fuzzy Syst. 27 (2014), 2987–2995.10.3233/IFS-141257Search in Google Scholar
Received: 2021-04-12
Accepted: 2021-12-06
Published Online: 2022-12-04
Published in Print: 2022-12-16

© 2022 Mathematical Institute Slovak Academy of Sciences

Articles in the same Issue

  1. Prof. RNDr. Július korbaš, CSC. passed away
  2. Kalmbach measurability In d0-algebras
  3. Quantifiers on L-algebras
  4. Ideals of functions with compact support in the integer-valued case
  5. An algebraic study of the logic S5’(BL)
  6. Triangular numbers and generalized fibonacci polynomial
  7. A general matrix series inversion pair and associated polynomials
  8. Quantum ostrowski type inequalities for pre-invex functions
  9. Hermite-Hadamard type inequalities for interval-valued fractional integrals with respect to another function
  10. Approximating families for lattice outer measures on unsharp quantum logics
  11. On a generalized Lamé-Navier system in ℝ3
  12. Coercive and noncoercive elliptic problems with variable exponent Laplacian under Robin boundary conditions
  13. On some classical properties of normed spaces via generalized vector valued almost convergence
  14. Fan-Hemicontinuity for the gradient of the norm in Hilbert space
  15. Solvability of mixed problems for heat equations with two nonlocal conditions
  16. The global harnack estimates for a nonlinear heat equation with potential under finsler-geometric flow
  17. A note on set-star-K-Menger spaces
  18. A bivariate extension of the Omega distribution for two-dimensional proportional data
  19. Bernstein polynomials based iterative method for solving fractional integral equations
  20. The symmetric 4-Player gambler’s problem with unequal initial stakes
  21. Enveloping action: Convergence spaces
https://doi.org/10.1515/ms-2022-0096
Keywords for this article
L-algebra; monadic L-algebra; monadic ideal; existential quantifier; universal quantifier; functional monadic L-algebra

Articles in the same Issue

  1. Prof. RNDr. Július korbaš, CSC. passed away
  2. Kalmbach measurability In d0-algebras
  3. Quantifiers on L-algebras
  4. Ideals of functions with compact support in the integer-valued case
  5. An algebraic study of the logic S5’(BL)
  6. Triangular numbers and generalized fibonacci polynomial
  7. A general matrix series inversion pair and associated polynomials
  8. Quantum ostrowski type inequalities for pre-invex functions
  9. Hermite-Hadamard type inequalities for interval-valued fractional integrals with respect to another function
  10. Approximating families for lattice outer measures on unsharp quantum logics
  11. On a generalized Lamé-Navier system in ℝ3
  12. Coercive and noncoercive elliptic problems with variable exponent Laplacian under Robin boundary conditions
  13. On some classical properties of normed spaces via generalized vector valued almost convergence
  14. Fan-Hemicontinuity for the gradient of the norm in Hilbert space
  15. Solvability of mixed problems for heat equations with two nonlocal conditions
  16. The global harnack estimates for a nonlinear heat equation with potential under finsler-geometric flow
  17. A note on set-star-K-Menger spaces
  18. A bivariate extension of the Omega distribution for two-dimensional proportional data
  19. Bernstein polynomials based iterative method for solving fractional integral equations
  20. The symmetric 4-Player gambler’s problem with unequal initial stakes
  21. Enveloping action: Convergence spaces
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 3.10.2025 from https://www.degruyterbrill.com/document/doi/10.1515/ms-2022-0096/html
Scroll to top button