Separation of ( n + 1 ) -families of sets in general position in 𝐑 n

Mircea Balaj

Commentationes Mathematicae Universitatis Carolinae (1997)

  • Volume: 38, Issue: 4, page 743-748
  • ISSN: 0010-2628

Abstract

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In this paper the main result in [1], concerning ( n + 1 ) -families of sets in general position in 𝐑 n , is generalized. Finally we prove the following theorem: If { A 1 , A 2 , , A n + 1 } is a family of compact convexly connected sets in general position in 𝐑 n , then for each proper subset I of { 1 , 2 , , n + 1 } the set of hyperplanes separating { A i : i I } and { A j : j I ¯ } is homeomorphic to S n + .

How to cite

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Balaj, Mircea. "Separation of $(n+1)$-families of sets in general position in $\mathbf {R}^n$." Commentationes Mathematicae Universitatis Carolinae 38.4 (1997): 743-748. <http://eudml.org/doc/248068>.

@article{Balaj1997,
abstract = {In this paper the main result in [1], concerning $(n+1)$-families of sets in general position in $\{\mathbf \{R\}\}^n$, is generalized. Finally we prove the following theorem: If $\lbrace A_1,A_2,\dots ,A_\{n+1\}\rbrace $ is a family of compact convexly connected sets in general position in $\{\mathbf \{R\}\}^n$, then for each proper subset $I$ of $\lbrace 1,2,\dots ,n+1\rbrace $ the set of hyperplanes separating $\cup \lbrace A_i: i\in I\rbrace $ and $\cup \lbrace A_j: j\in \overline\{I\}\rbrace $ is homeomorphic to $S_n^+$.},
author = {Balaj, Mircea},
journal = {Commentationes Mathematicae Universitatis Carolinae},
keywords = {family of sets in general position; convexly connected sets; Fan-Glicksberg-Kakutani fixed point theorem; combinatorial geometry; convexly connected sets; family of sets in general position},
language = {eng},
number = {4},
pages = {743-748},
publisher = {Charles University in Prague, Faculty of Mathematics and Physics},
title = {Separation of $(n+1)$-families of sets in general position in $\mathbf \{R\}^n$},
url = {http://eudml.org/doc/248068},
volume = {38},
year = {1997},
}

TY - JOUR
AU - Balaj, Mircea
TI - Separation of $(n+1)$-families of sets in general position in $\mathbf {R}^n$
JO - Commentationes Mathematicae Universitatis Carolinae
PY - 1997
PB - Charles University in Prague, Faculty of Mathematics and Physics
VL - 38
IS - 4
SP - 743
EP - 748
AB - In this paper the main result in [1], concerning $(n+1)$-families of sets in general position in ${\mathbf {R}}^n$, is generalized. Finally we prove the following theorem: If $\lbrace A_1,A_2,\dots ,A_{n+1}\rbrace $ is a family of compact convexly connected sets in general position in ${\mathbf {R}}^n$, then for each proper subset $I$ of $\lbrace 1,2,\dots ,n+1\rbrace $ the set of hyperplanes separating $\cup \lbrace A_i: i\in I\rbrace $ and $\cup \lbrace A_j: j\in \overline{I}\rbrace $ is homeomorphic to $S_n^+$.
LA - eng
KW - family of sets in general position; convexly connected sets; Fan-Glicksberg-Kakutani fixed point theorem; combinatorial geometry; convexly connected sets; family of sets in general position
UR - http://eudml.org/doc/248068
ER -

References

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  1. Balaj M., ( n + 1 ) -families of sets in general position, Beitrage zur Algebra und Geometrie 37 (1996), 67-74. (1996) Zbl0856.52007MR1407806
  2. Fan K., Fixed-point and minimax theorems in locally convex topological linear spaces, Proc. Nat. Acad. Sci. U.S.A. 38 (1952), 121-126. (1952) Zbl0047.35103MR0047317
  3. Gaal S.A., Point Set Topology, Academic Press, New York and London, 1964. Zbl0124.15401MR0171253
  4. Glicksberg I.L., A further generalization of the Kakutani fixed point theorem, with application to Nash equilibrium points, Proc. Amer. Math. Soc. 3 (1952), 170-174. (1952) Zbl0163.38301MR0046638
  5. Hanner O., Radström H., A generalization of a theorem of Fenchel, Proc. Amer. Math. Soc. 2 (1951), 589-593. (1951) MR0044142
  6. Singer I., Best Approximation in Normed Linear Spaces by Elements of Linear Subspaces (in Romanian), Edit. Academiei Române, Bucureşti, 1967. MR0235368
  7. Valentine F.A., The dual cone and Helly type theorems, in: Convexity, V.L. Klee ed., Proc. Sympos. Pure Math. 7, Amer. Math. Soc., 1963, pp.473-493. Zbl0138.43204MR0157285
  8. Valentine F.A., Konvexe Mengen, Manheim, 1968. Zbl0157.52501MR0226495

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