Inferring general relations between network characteristics from specific network ensembles

Inferring general relations between network c ...
Stefano Cardanobile, Stefano C ...
Not in Library

My Reading Lists:

Create a new list

Check-In

×Close
Add an optional check-in date. Check-in dates are used to track yearly reading goals.
Today


Buy this book

Last edited by MARC Bot
April 26, 2022 | History

Inferring general relations between network characteristics from specific network ensembles

Abstract: Different network models have been suggested for the topology underlying complex interactions in natural systems. These models are aimed at replicating specific statistical features encountered in real-world networks. However, it is rarely considered to which degree the results obtained for one particular network class can be extrapolated to real-world networks. We address this issue by comparing different classical and more recently developed network models with respect to their ability to generate networks with large structural variability. In particular, we consider the statistical constraints which the respective construction scheme imposes on the generated networks. After having identified the most variable networks, we address the issue of which constraints are common to all network classes and are thus suitable candidates for being generic statistical laws of complex networks. In fact, we find that generic, not model-related dependencies between different network characteristics do exist. This makes it possible to infer global features from local ones using regression models trained on networks with high generalization power. Our results confirm and extend previous findings regarding the synchronization properties of neural networks. Our method seems especially relevant for large networks, which are difficult to map completely, like the neural networks in the brain. The structure of such large networks cannot be fully sampled with the present technology. Our approach provides a method to estimate global properties of under-sampled networks in good approximation. Finally, we demonstrate on three different data sets (C. elegans neuronal network, R. prowazekii metabolic network, and a network of synonyms extracted from Roget’s Thesaurus) that real-world networks have statistical relations compatible with those obtained using regression models

Publish Date
Publisher
Universität
Language
English

Buy this book

Book Details


Edition Notes

PLoS ONE. 7, 6 (2012), e37911, DOI 10.1371/journal.pone.0037911, issn: 1932-6203

IN COPYRIGHT http://rightsstatements.org/page/InC/1.0 rs

Archivierung/Langzeitarchivierung gewährleistet

Published in
Freiburg

Classifications

Dewey Decimal Class
570

The Physical Object

Pagination
Online-Ressource

ID Numbers

Open Library
OL37839495M
OCLC/WorldCat
992999429
Deutsche National Bibliothek
1134867786

Community Reviews (0)

Feedback?
No community reviews have been submitted for this work.

Lists

This work does not appear on any lists.

History

Download catalog record: RDF / JSON / OPDS | Wikipedia citation
April 26, 2022 Created by MARC Bot Imported from Deutsche Nationalbibliothek MARC record