The polyadic generalization of the Boolean axiomatization of fields of sets
HTML articles powered by AMS MathViewer
- by Miklós Ferenczi PDF
- Trans. Amer. Math. Soc. 364 (2012), 867-886 Request permission
Abstract:
A version of the classical representation theorem for Boolean algebras states that the fields of sets form a variety and that a possible axiomatization is the system of Boolean axioms. An important case for fields of sets occurs when the unit $V$ is a subset of an $\alpha$-power $^{\alpha }U$. Beyond the usual set operations union, intersection, and complement, new operations are needed to describe such a field of sets, e.g., the $i$th cylindrification $C_{i},$ the constant $ij$th diagonal $D_{ij},$ the elementary substitution $\left [ i\;/\;j\right ]$ and the transposition $\left [ i,\;j\right ]$ for all $i,j<\alpha$ restricted to the unit $V$. Here it is proven that such generalized fields of sets being closed under the above operations form a variety; further, a first order finite scheme axiomatization of this variety is presented. In the proof a crucial role is played by the existence of the operator transposition. The foregoing axiomatization is close to that of finitary polyadic equality algebras (or quasi-polyadic equality algebras).References
- H. Andréka, S. D. Comer, J. X. Madarász, I. Németi, and T. Sayed Ahmed, Epimorphisms in cylindric algebras and definability in finite variable logic, Algebra Universalis 61 (2009), no. 3-4, 261–282. MR 2565854, DOI 10.1007/s00012-009-0022-2
- H. Andréka and R. J. Thompson, A Stone-type representation theorem for algebras of relations of higher rank, Trans. Amer. Math. Soc. 309 (1988), no. 2, 671–682. MR 961607, DOI 10.1090/S0002-9947-1988-0961607-5
- H. Andréka, A finite axiomatization of locally square cylindric-relativized set algebras, Studia Sci. Math. Hungar. 38 (2001), 1–11. MR 1877766, DOI 10.1556/SScMath.38.2001.1-4.1
- H. Andréka, M. Ferenczi and I. Németi, Cylindric-like Algebras and Algebraic Logic, Bolyai Society Mathematical Studies, Springer, to appear.
- Stephen D. Comer, Galois theory for cylindric algebras and its applications, Trans. Amer. Math. Soc. 286 (1984), no. 2, 771–785. MR 760986, DOI 10.1090/S0002-9947-1984-0760986-8
- A. Daigneault and D. Monk, Representation theory for polyadic algebras, Fund. Math. 52 (1963), 151–176. MR 151373, DOI 10.4064/fm-52-2-151-176
- Miklós Ferenczi, On the representability of neatly embeddable CA’s by cylindric relativized algebras, Algebra Universalis 63 (2010), no. 4, 331–350. MR 2734301, DOI 10.1007/s00012-010-0081-4
- Miklós Ferenczi and Gábor Sági, On some developments in the representation theory of cylindric-like algebras, Algebra Universalis 55 (2006), no. 2-3, 345–353. Special issue dedicated to Walter Taylor. MR 2280236, DOI 10.1007/s00012-006-1993-x
- Miklós Ferenczi, On cylindric algebras satisfying merry-go-round properties, Log. J. IGPL 15 (2007), no. 2, 183–197. MR 2333809, DOI 10.1093/jigpal/jzm006
- M. Ferenczi, Partial transposition implies representability in cylindric algebras, Mathematical Logic Quarterly, 57 (1) (2011), 87–94.
- Leon Henkin, J. Donald Monk, and Alfred Tarski, Cylindric algebras. Part I, Studies in Logic and the Foundations of Mathematics, vol. 64, North-Holland Publishing Co., Amsterdam, 1985. With an introductory chapter: General theory of algebras; Reprint of the 1971 original. MR 781929
- Robin Hirsch and Ian Hodkinson, Step by step—building representations in algebraic logic, J. Symbolic Logic 62 (1997), no. 1, 225–279. MR 1450522, DOI 10.2307/2275740
- Robin Hirsch and Ian Hodkinson, Relation algebras by games, Studies in Logic and the Foundations of Mathematics, vol. 147, North-Holland Publishing Co., Amsterdam, 2002. With a foreword by Wilfrid Hodges. MR 1935083
- J. Donald Monk, Nonfinitizability of classes of representable cylindric algebras, J. Symbolic Logic 34 (1969), 331–343. MR 256861, DOI 10.2307/2270900
- Ildikó Sain and Richard J. Thompson, Strictly finite schema axiomatization of quasipolyadic algebras, Algebraic logic (Budapest, 1988) Colloq. Math. Soc. János Bolyai, vol. 54, North-Holland, Amsterdam, 1991, pp. 539–571. MR 1153440
- Tarek Sayed Ahmed, On complete representations of reducts of polyadic algebras, Studia Logica 89 (2008), no. 3, 325–332. MR 2438547, DOI 10.1007/s11225-008-9131-8
Additional Information
- Miklós Ferenczi
- Affiliation: Department of Algebra, Budapest University of Technology and Economics, H–1521 Budapest, Hungary
- Email: ferenczi@math.bme.hu
- Received by editor(s): September 4, 2009
- Received by editor(s) in revised form: February 23, 2010
- Published electronically: September 8, 2011
- © Copyright 2011
American Mathematical Society
The copyright for this article reverts to public domain 28 years after publication. - Journal: Trans. Amer. Math. Soc. 364 (2012), 867-886
- MSC (2010): Primary 03G15, 03G05, 03C05; Secondary 03G25, 03C48, 03C95
- DOI: https://doi.org/10.1090/S0002-9947-2011-05332-8
- MathSciNet review: 2846356