[{"type":"report","title":"Plattenbauten: Touching Rectangles in Space","issued":{"date-parts":[["2020","7","15"]]},"author":[{"family":"Felsner","given":"Stefan"},{"family":"Knauer","given":"Kolja"},{"family":"Ueckerdt","given":"Torsten"}],"abstract":"Planar bipartite graphs can be represented as touching graphs of horizontal and vertical segments in \u211d2. We study a generalization in space, namely, touching graphs of axis-aligned rectangles in \u211d3. We prove that planar 3-colorable graphs can be represented as touching graphs of axis-aligned rectangles in \u211d3. The result implies a characterization of corner polytopes previously obtained by Eppstein and Mumford. A by-product of our proof is a distributive lattice structure on the set of orthogonal surfaces with given skeleton.\r\nMoreover, we study the subclass of strong representations, i.e., families of axis-aligned rectangles in \u211d3 in general position such that all regions bounded by the rectangles are boxes. We show that the resulting graphs correspond to octahedrations of an octahedron. This generalizes the correspondence between planar quadrangulations and families of horizontal and vertical segments in \u211d2 with the property that all regions are rectangles.","keyword":"Touching graphs, contact graphs, boxicity, planar graphs","kit-publication-id":"1000126331"}]