SS20_VG: Ресурсы

Тема	Название	Описание
Themen und Vorlesungen	Lecture #0: Organisational matters
	Lecture #0: Organisational matters
	Lecture #1: Introduction
	Lecture #1: Introduction kurz
	Lecture video #1a: Introduction
	Lecture #1: Examples
	Lecture video #1b: Examples
	Lecture #1: Divide and Conquer Algorithms for Trees and Series-Parallel Graphs
	Lecture #1: Divide and Conquer Algorithms for Trees and Series-Parallel Graphs kurz
	Lecture video #1c: Trees, level-based layout
	Lecture video #1d: hv-drawings
	Lecture video #1e: radial layout
	Lecture video #1f: Series-parallel graphs
	Lecture #2: Planar straight-line drawings with shift method
	Lecture #2: Planar straight-line drawings with shift method short
	Lecture video #2a: Canonical order
	Lecture video #2b: Shift method
	Lecture #3: Planar straight-line drawings with Schnyder realiser
	Lecture #3: Planar straight-line drawings with Schnyder realiser short
	Lecture video #3a: Planar straight-line drawings with Schnyder realiser
	Lecture video #3b: Planar straight-line drawings with Schnyder realiser
	Lecture #4: Orthogonal layouts
	Lecture #4: Orthogonal layouts short
	Lecture video #4a: Orthogonal layouts intro
	Lecture video #4b: Orthogonal representations
	Lecture video #4c: Orthogonal drawings
	Lecture video #4d: Orthogonal compaction NP-hardness
	Lecture #5: Upward planar drawings
	Lecture #5: Upward planar drawings short
	Lecture video #5a: Upward planar drawings intro
	Lecture video #5b: Upward planar drawings
	Lecture #6: Hierarchical layouts
	Lecture #6: Hierarchical layouts short
	Lecture #7: Contact representations
	Lecture #7: Contact representations short
	Lecture #8: The Crossing Lemma
	Lecture #8: The Crossing Lemma short
	Lecture #9: Force-directed algorithms
	Lecture #9: Force-directed algorithms short
	Lecture #10: SPQR-trees and Partial Bar Visibility Representation Extension
	Lecture #10: SPQR-trees and Partial Bar Visibility Representation Extension short
	Lecture #11: Octilinear graph drawing of metro maps
	Lecture #11: Octilinear graph drawing of metro maps short

Übungen und Übungsblätter	LaTeX template for exercise sheets

Literatur und zusätzliche Materialien	Lecture #1 [Reingold and Tilford 1981] Tidier Drawings of Trees
	Lecture #1 [Supowit and Reingold 1983] The complexity of drawing trees nicely	This paper shows that one can use LP-based methods to minimize the width of a "balanced-layered" drawing of tree, but if one desires a grid drawing the problem becomes NP-hard.
	Lecture #3 [Schnyder 1990] Embedding Planar Graphs on the Grid
	Lecture #4 [Patrignani 2001] On the complexity of orthogonal compaction	Lecture #3: reference for the NP-hardness proof regarding optimally "compactifying" an orthogonal drawing of an embedded graph.
	Lecture #7 [de Fraysseix, de Mendez, Rosenstiehl 1994] On Triangle Contact Graphs
	Lecture #7 [He 1993] On Finding the Rectangular Duals of Planar Triangular Graphs
	Lecture #7 [Kant and He 1994] Two algorithms for finding rectangular duals of planar graphs
	Lecture #8 [Székely 1997] Crossing numbers and hard Erdős problems in discrete geometry	This paper contains several applications of the crossing lemma. Be warned that the presentation is a bit dense at times.
	Lecture #8 [Bienstock and Dean 1993] Bounds for rectilinear crossing numbers
	Lecture #8 [Schaefer 2020] The Graph Crossing Number and its Variants: A Survey
	Lecture #8 Terry Tao's blog on Crossing Numbers	Terry Tao's blog entry on the crossing inequality.
	Lecture #8 Movie "N Is a Number: A Portrait of Paul Erdös"
	Lecture #9 Web interface for force-directed approaches	This website gives a live demo environment (with configurable constants) and many example graphs drawn via force-directed methods.
	Lecture #10 [CGGKL18] The Partial Visibility Representation Extension Problem
	Lecture #11 [Nöl14] A Survey on Automated Metro Map Layout Methods

Jonathan Klawitter

Myroslav Kryven

Alexander Wolff