The Shortest Path to Network Geometry
A Practical Guide to Basic Models and Applications
Part of Elements in the Structure and Dynamics of Complex Networks
- Authors:
- M. Ángeles Serrano, University of Barcelona, University of Barcelona Institute of Complex Systems (UBICS) and Catalan Institution for Research and Advanced Studies (ICREA)
- Marián Boguñá, University of Barcelona and University of Barcelona Institute of Complex Systems (UBICS)
- Date Published: January 2022
- availability: Not yet published - available from October 2024
- format: Paperback
- isbn: 9781108791083
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Real networks comprise from hundreds to millions of interacting elements and permeate all contexts, from technology to biology to society. All of them display non-trivial connectivity patterns, including the small-world phenomenon, making nodes to be separated by a small number of intermediate links. As a consequence, networks present an apparent lack of metric structure and are difficult to map. Yet, many networks have a hidden geometry that enables meaningful maps in the two-dimensional hyperbolic plane. The discovery of such hidden geometry and the understanding of its role have become fundamental questions in network science giving rise to the field of network geometry. This Element reviews fundamental models and methods for the geometric description of real networks with a focus on applications of real network maps, including decentralized routing protocols, geometric community detection, and the self-similar multiscale unfolding of networks by geometric renormalization.
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×Product details
- Date Published: January 2022
- format: Paperback
- isbn: 9781108791083
- length: 75 pages
- dimensions: 228 x 152 x 4 mm
- weight: 0.1kg
- availability: Not yet published - available from October 2024
Table of Contents
1. From networks to maps
2. Geometric models for static topologies
3. Mapping real networks
4. Mesoscale organization and community detection
5. Self-similarity and renormalization
6. Navigability
7. Geometry of weighted, multiplex, and growing networks
8. Conclusions
References.
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