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  1. Pontryagin theorem; the duality formulated in it is known as Alexander–Pontryagin duality or as Pontryagin duality.[1]
  2. In mathematics, Alexander duality refers to a duality theory presaged by a result of 1915 by J. W. Alexander, and subsequently further developed, particularly by Pavel Alexandrov and Lev Pontryagin.[2]
  3. Alexander had little of the modern apparatus, and his result was only for the Betti numbers, with coefficients taken modulo 2.[2]
  4. In the process, we develop coarse topological language and a formulation of coarse Alexander duality which is suitable for applications involving quasi-isometries and geometric group theory.[3]
  5. (2) a refinement of the Borel--Moore homology of the coverage gaps with a positive cone encoding time orientation, and (3) a positive variant of Alexander Duality.[4]
  6. This note contributes to the point calculus of persistent homology by extending Alexander duality from spaces to real-valued functions.[5]
  7. The class of simplicial complexes representing triangulations and subdivisions of Lawrence polytopes is closed under Alexander duality.[6]
  8. The aim of the present article is to make a survey and prove the main results which are necessary for a proof of the generalization of Alexander duality theorem of W.S. Massey.[7]
  9. In this paper we introduce a relative version of this Čech homology that satisfies the Eilenberg-Steenrod Exactness Axiom, and we prove a relative version of coarse Alexander duality.[8]
  10. We show that the basis for the complementary fraction is the Alexander dual of the first basis, constructed by shifting monomial exponents.[9]
  11. This map is an isomorphism and it is called the Alexander-Čech duality (or sometimes simply Alexander duality).[10]
  12. This paper extends Alexander Duality to this setting.[11]
  13. Com binato ria l Alexander dualit y exis ts in more general ve rsions.[12]

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Spacy 패턴 목록

  • [{'LOWER': 'alexander'}, {'LEMMA': 'duality'}]