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Competitive Location Problems: Balanced Facility Location and the One-Round Manhattan Voronoi Game

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  • Thomas Byrne
  • S'andor P. Fekete
  • Jorg Kalcsics
  • Linda Kleist

Abstract

We study competitive location problems in a continuous setting, in which facilities have to be placed in a rectangular domain $R$ of normalized dimensions of $1$ and $\rho\geq 1$, and distances are measured according to the Manhattan metric. We show that the family of 'balanced' facility configurations (in which the Voronoi cells of individual facilities are equalized with respect to a number of geometric properties) is considerably richer in this metric than for Euclidean distances. Our main result considers the 'One-Round Voronoi Game' with Manhattan distances, in which first player White and then player Black each place $n$ points in $R$; each player scores the area for which one of its facilities is closer than the facilities of the opponent. We give a tight characterization: White has a winning strategy if and only if $\rho\geq n$; for all other cases, we present a winning strategy for Black.

Suggested Citation

  • Thomas Byrne & S'andor P. Fekete & Jorg Kalcsics & Linda Kleist, 2020. "Competitive Location Problems: Balanced Facility Location and the One-Round Manhattan Voronoi Game," Papers 2011.13275, arXiv.org, revised Sep 2022.
    • Handle: RePEc:arx:papers:2011.13275
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    References listed on IDEAS

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    1. Antoon Kolen, 1981. "Technical Note—Equivalence between the Direct Search Approach and the Cut Approach to the Rectilinear Distance Location Problem," Operations Research, INFORMS, vol. 29(3), pages 616-620, June.
    2. Sándor P. Fekete & Joseph S. B. Mitchell & Karin Beurer, 2005. "On the Continuous Fermat-Weber Problem," Operations Research, INFORMS, vol. 53(1), pages 61-76, February.
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