We consider geometric hypergraphs whose vertex set is a finite set of points (e.g., in the plane), and whose hyperedges are the intersections of this set with a family of geometric regions (e.g., axis-parallel rectangles). A typical coloring problem for such geometric hypergraphs asks, given an integer $k$, for the existence of an integer $m=m(k)$, such that every set of points can be $k$-colored such that every hyperedge of size at least $m$ contains points of different (or all $k$) colors. We generalize this notion by introducing coloring of \emph{$t$-subsets} of points such that every hyperedge that contains enough points contains $t$-subsets of different (or all) colors. In particular, we consider all $t$-subsets and $t$-subsets that are themselves hyperedges. The latter, with $t=2$, is equivalent to coloring the edges of the so-called \emph{Delaunay-graph}. In this paper we study colorings of Delaunay-edges with respect to halfplanes, pseudo-disks, axis-parallel and bottomless rectangles, and also discuss colorings of $t$-subsets of geometric and abstract hypergraphs, and connections between the standard coloring of vertices and coloring of $t$-subsets of vertices.
翻译:我们考虑的几何高音,其顶端设置是一组有限的点(例如平面中的),其顶端是该组与几何区域组的交叉点(例如轴-平行矩形)的交汇点。对于这些几何高音的典型颜色问题,考虑到一个整数 $k美元,对于存在一个整数 $=m(k)美元,因此每组点都可以是美元-彩色的,这样每组点的每组色色色色都至少为美元,每组高端包含不同(或全部美元)颜色的颜色(或全部美元)。我们将这个概念概括化,我们引入了每组点的颜色\emph{t$美元-subets的交汇点(例如轴轴轴-平面上的美元)的颜色。我们考虑的是所有$-subet-subets and $-t$-subgetreadgets 。后,美元=2美元,这组的平面颜色-creal-deal-deal-deal-deal-deals, 和Deal-deal-deal-deal-deal-deal-deal-deal-deal-deals, des-des-deal-deal-deal-deal-deal-deal-deal-deal-deal-s-deal-deal-deal-deal-deal-s-deal-deal-deal-deal-deal-deal-deal-deal-demals) 和制的颜色-deal-debras-demals-deal-de-deal-ex-s-deal-s-de-de-de-de-de-de-de-deal-deal-de-de-de-deal-de-de-de-deal-deal-deal-deal-deal-deal-deal-deal-deal-de-de-deal-deal-deal-de-de-de-de-de-de-de-de-deal-de-de-deal-deal-de-de-de-de-de-deal-deal-de-
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