The Galois Complexity of Graph Drawing: Why Numerical Solutions are
  Ubiquitous for Force-Directed, Spectral, and Circle Packing Drawings

A.C. Yao; C. Bajaj; G. Brightwell; J.E. Hopcroft; P. Koebe; P. Stäckel; R.C. Baker; T. Kamada; T.M.J. Fruchterman; W.T. Tutte; Y. Koren

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The Galois Complexity of Graph Drawing: Why Numerical Solutions are Ubiquitous for Force-Directed, Spectral, and Circle Packing Drawings

Authors: A.C. Yao
C. Bajaj
G. Brightwell
J.E. Hopcroft
P. Koebe
P. Stäckel
R.C. Baker
T. Kamada
T.M.J. Fruchterman
W.T. Tutte
Y. Koren
Publication date: 1 January 2014
Publisher: 'Journal of Graph Algorithms and Applications'
Doi

Abstract

Many well-known graph drawing techniques, including force directed drawings, spectral graph layouts, multidimensional scaling, and circle packings, have algebraic formulations. However, practical methods for producing such drawings ubiquitously use iterative numerical approximations rather than constructing and then solving algebraic expressions representing their exact solutions. To explain this phenomenon, we use Galois theory to show that many variants of these problems have solutions that cannot be expressed by nested radicals or nested roots of low-degree polynomials. Hence, such solutions cannot be computed exactly even in extended computational models that include such operations.Comment: Graph Drawing 201