On the Fixed-Parameter Tractability of Some Matching Problems Under the Color-Spanning Model
May 14, 2018 Β· Declared Dead Β· π Frontiers in Algorithmics
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Authors
Sergey Bereg, Feifei Ma, Wencheng Wang, Jian Zhang, Binhai Zhu
arXiv ID
1805.05448
Category
cs.DS: Data Structures & Algorithms
Citations
2
Venue
Frontiers in Algorithmics
Last Checked
4 months ago
Abstract
Given a set of $n$ points $P$ in the plane, each colored with one of the $t$ given colors, a color-spanning set $S\subset P$ is a subset of $t$ points with distinct colors. The minimum diameter color-spanning set (MDCS) is a color-spanning set whose diameter is minimum (among all color-spanning sets of $P$). Somehow symmetrically, the largest closest pair color-spanning set (LCPCS) is a color-spanning set whose closest pair is the largest (among all color-spanning sets of $P$). Both MDCS and LCPCS have been shown to be NP-complete, but whether they are fixed-parameter tractable (FPT) when $t$ is a parameter is still open. Motivated by this question, we consider the FPT tractability of some matching problems under this color-spanning model, where $t=2k$ is the parameter. The problems are summarized as follows: (1) MinSum Matching Color-Spanning Set, namely, computing a matching of $2k$ points with distinct colors such that their total edge length is minimized; (2) MaxMin Matching Color-Spanning Set, namely, computing a matching of $2k$ points with distinct colors such that the minimum edge length is maximized; (3) MinMax Matching Color-Spanning Set, namely, computing a matching of $2k$ points with distinct colors such that the maximum edge length is minimized; and (4) $k$-Multicolored Independent Matching, namely, computing a matching of $2k$ vertices in a graph such that the vertices of the edges in the matching do not share common edges in the graph. We show that the first three problems are polynomially solvable (hence in FPT), while problem (4) is W[1]-hard.
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