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Contact Algebras and Region-based Theory of Space: Proximity Approach - II

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Języki publikacji
EN
Abstrakty
EN
This paper is the second part of the paper [2]. Both of them are in the field of region-based (or Whitehedian) theory of space, which is an important subfield of Qualitative Spatial Reasoning (QSR). The paper can be considered also as an application of abstract algebra and topology to some problems arising and motivated in Theoretical Computer Science and QSR. In [2], different axiomatizations for region-based theory of space were given. The most general one was introduced under the name ``Contact Algebra". In this paper some categories defined in the language of contact algebras are introduced. It is shown that they are equivalent to the category of all semiregular T0-spaces and their continuous maps and to its full subcategories having as objects all regular (respectively, completely regular; compact; locally compact) Hausdorff spaces. An algorithm for a direct construction of all, up to homeomorphism, finite semiregular T0-spaces of rank n is found. An example of an RCC model which has no regular Hausdorff representation space is presented. The main method of investigation in both parts is a lattice-theoretic generalization of methods and constructions from the theory of proximity spaces. Proximity models for various kinds of contact algebras are given here. In this way, the paper can be regarded as a full realization of the proximity approach to the region-based theory of space.
Wydawca
Rocznik
Strony
251--282
Opis fizyczny
bibliogr. 15 poz.
Twórcy
autor
autor
  • Department of Mathematics and Computer Science University of Sofia, Blvd. James Bourchier 5, 1126 Sofia, Bulgaria
Bibliografia
  • [1] Adámek, J., Herrlich, H., Strecker, G.: Abstract and Concrete Categories, Wiley Interscience, 1990.
  • [2] Dimov, G., Vakarelov, D.: Contact algebras and region-based theory of space: A proximity approach - I, Fund. Informaticae, 74, 2006, 209-249.
  • [3] Düntsch, I., Winter,M.: Remarks on lattices of contact relations, Research Report, Department of Computer Science, Brock University, 2006.
  • [4] Düntsch, I., Winter, M.: A representation theorem for Boolean contact algebras, Theoretical Computer Science (B), 347, 2005, 498-512.
  • [5] Engelking, R.: General Topology, PWN, 1977.
  • [6] Evans, J. W., Harary, F., Lynn, M. S.: On the computer enumeration of finite topologies, Comm. Assoc. Comput. Mach., 10, 1967, 295-298.
  • [7] Harris, D.: Regular-closed spaces and proximities, Pacific J. Math., 34, 1970, 675-686.
  • [8] Krishnamurthy, V.: On the number of topologies on a finite set, Amer. Math. Monthly, 73, 1966, 154-157.
  • [9] Leader, S.: Local proximity spaces, Math. Annalen, 169, 1967, 275-281.
  • [10] Naimpally, S. A., Warrack, B. D.: Proximity Spaces, Cambridge University Press, 1970.
  • [11] Porter, J. R., Votaw, C.: S(α) spaces and regular Hausdorff extensions, Pacific J. Math., 45, 1973, 327-345.
  • [12] Sikorski, R.: Boolean Algebras, Springer-Verlag, 1964.
  • [13] Stong, R. E.: Finite topological spaces, Trans. Amer. Math. Soc., 123, 1966, 325-340.
  • [14] Vakarelov, D., Dimov, G., Düntsch, I., Bennett, B.: A proximity approach to some region-based theories of space, J. Applied Non-Classical Logics, 12, 2002, 527-559.
  • [15] Čech, E.: Topological Spaces, Interscience, 1966.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS2-0015-0059
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