@inproceedings{6647,
abstract = {The Tverberg theorem is one of the cornerstones of discrete geometry. It states that, given a set X of at least (d+1)(r-1)+1 points in R^d, one can find a partition X=X_1 cup ... cup X_r of X, such that the convex hulls of the X_i, i=1,...,r, all share a common point. In this paper, we prove a strengthening of this theorem that guarantees a partition which, in addition to the above, has the property that the boundaries of full-dimensional convex hulls have pairwise nonempty intersections. Possible generalizations and algorithmic aspects are also discussed. As a concrete application, we show that any n points in the plane in general position span floor[n/3] vertex-disjoint triangles that are pairwise crossing, meaning that their boundaries have pairwise nonempty intersections; this number is clearly best possible. A previous result of Alvarez-Rebollar et al. guarantees floor[n/6] pairwise crossing triangles. Our result generalizes to a result about simplices in R^d,d >=2.},
author = {Fulek, Radoslav and Gärtner, Bernd and Kupavskii, Andrey and Valtr, Pavel and Wagner, Uli},
booktitle = {35th International Symposium on Computational Geometry},
isbn = {9783959771047},
issn = {1868-8969},
location = {Portland, OR, United States},
pages = {38:1--38:13},
publisher = {Schloss Dagstuhl - Leibniz-Zentrum für Informatik},
title = {{The crossing Tverberg theorem}},
doi = {10.4230/LIPICS.SOCG.2019.38},
volume = {129},
year = {2019},
}