2017
DOI: 10.1007/s00453-017-0291-7
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Effect of Gromov-Hyperbolicity Parameter on Cuts and Expansions in Graphs and Some Algorithmic Implications

Abstract: δ-hyperbolic graphs, originally conceived by Gromov in 1987, occur often in many network applications; for fixed δ, such graphs are simply called hyperbolic graphs and include non-trivial interesting classes of "non-expander" graphs. The main motivation of this paper is to investigate the effect of the hyperbolicity measure δ on expansion and cut-size bounds on graphs (here δ need not be a constant), and the asymptotic ranges of δ for which these results may provide improved approximation algorithms for relate… Show more

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Cited by 11 publications
(4 citation statements)
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“…This is due to the fact that many of these graphs (including Internet application networks, web networks, collaboration networks, social networks, biological networks, and others) possess certain geometric and topological characteristics. Hence, for many applications, including the design of efficient algorithms (cf., e.g., [4,[9][10][11][12][13]17,20,33]), it is useful to know an accurate approximation of the hyperbolicity δ(G) of a graph G.…”
Section: Introductionmentioning
confidence: 99%
“…This is due to the fact that many of these graphs (including Internet application networks, web networks, collaboration networks, social networks, biological networks, and others) possess certain geometric and topological characteristics. Hence, for many applications, including the design of efficient algorithms (cf., e.g., [4,[9][10][11][12][13]17,20,33]), it is useful to know an accurate approximation of the hyperbolicity δ(G) of a graph G.…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, hyperbolicity has been found to capture important properties of several large practical graphs such as the Internet [27] or database relations [32]. Due to its importance in discrete mathematics, algorithms, metric graph theory, researchers have studied various algorithmic aspects of hyperbolic graphs [8,13,9,14]. Note that graphs with diameter 2 are hyperbolic, which may contain any graph as an induced subgraph.…”
Section: Hyperbolic Graphsmentioning
confidence: 99%
“…Our paper seeks to adapt the definition of curvature from the non-network domains in a suitable way for detecting network anomalies. For example, in networks with sufficiently small Gromov-hyperbolicity and sufficiently large diameter a suitably small subset of nodes or edges can be removed to stretch the geodesics between two distinct parts of the network by an exponential amount leading to extreme implications on the expansion properties of such networks [10,24], which is akin to the characterization of singularities (an extreme anomaly) by geodesic incompleteness (i.e., stretching all geodesics passing through the region infinitely) [39]. It is our hope that research works in this paper will stimulate further research concerning the exciting interplay between curvatures from network and nonnetwork domains, a much desired goal in our opinion.…”
Section: Why Use Network Curvature Measures?mentioning
confidence: 99%