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Infectious

About this network

This network describes the face-to-face behavior of people during the exhibition INFECTIOUS: STAY AWAY in 2009 at the Science Gallery in Dublin. Nodes represent exhibition visitors; edges represent face-to-face contacts that were active for at least 20 seconds. Multiple edges between two nodes are possible and denote multiple contacts. The network contains the data from the day with the most interactions.

Network info

CodeIf
Category HumanContact
Date of origin2009-07-15
Data source http://www.sociopatterns.org/
Vertex type Visitor
Edge type Contact
FormatUndirected: Edges are undirected Undirected
Edge weightsMultiple unweighted: Multiple edges are possible Multiple unweighted
Metadata Timestamps:  Edges are annotated with a timestamps Timestamps
Size410 vertices (visitors)
Volume17,298 edges (contacts)
Unique volume2,765 edges (contacts)
Average degree84.380 edges / vertex
Fill0.032978 edges / vertex2
Maximum degree294 edges
Size of LCC410 vertices (network is connected)
Wedge count48,984
Claw count347,591
Triangle count7,114
Square count81,287
4-tour count851,762
Power law exponent (estimated) with dmin6.4210 (dmin = 23)
Gini coefficient39.0%
Relative edge distribution entropy96.8%
Assortativity0.22575
Clustering coefficient43.6%
Diameter9 edges
90-percentile effective diameter4.78 edges
Mean shortest path length3.57 edges
Spectral norm210.05
Algebraic connectivity0.37871
Preferential attachment exponent0.092078 (ε = 7.2105)
Temporal distribution of the Infectious network
Temporal distribution
Edge multiplicity distribution of the Infectious network
Edge multiplicity distribution
Cumulative edge multiplicity distribution of the Infectious network
Cumulative edge multiplicity distribution
Degree distribution of the Infectious network
Degree distribution
Degree distribution of the Infectious network
Degree distribution
Degree distribution of the Infectious network
Degree distribution
Clustering coefficient distribution of the Infectious network
Clustering coefficient distribution
Distance distribution of the Infectious network
Distance distribution
Distance distribution on a logistic scale of the Infectious network
Distance distribution on a logistic scale
Temporal distance distribution of the Infectious network
Temporal distance distribution
Top-k eigenvalues of A of the Infectious network
Top-k eigenvalues of A
Top-k eigenvalues of N of the Infectious network
Top-k eigenvalues of N
Top-k eigenvalues of L of the Infectious network
Top-k eigenvalues of L
Spectral distribution of the eigenvalues of A of the Infectious network
Spectral distribution of the eigenvalues of A
Spectral distribution of the eigenvalues of N of the Infectious network
Spectral distribution of the eigenvalues of N
Spectral distribution of the eigenvalues of L of the Infectious network
Spectral distribution of the eigenvalues of L
Cumulative spectral distribution of A of the Infectious network
Cumulative spectral distribution of A
Cumulative spectral distribution of N of the Infectious network
Cumulative spectral distribution of N
Cumulative spectral distribution of L of the Infectious network
Cumulative spectral distribution of L
Eigenvectors of A of the Infectious network
Eigenvectors of A
Eigenvectors of L of the Infectious network
Eigenvectors of L

Layout

Layout of the Infectious network
Layout

Downloads

TSV file:downloadsociopatterns-infectious.tar.bz2 (44.22 KiB)
Extraction code:downloadsociopatterns.tar.bz2 (14.68 KiB)

References

[1] Infectious network dataset -- KONECT, October 2016. [ http ]
[2] Lorenzo Isella, Juliette Stehlé, Alain Barrat, Ciro Cattuto, Jean-François Pinton, and Wouter Van den Broeck. What's in a crowd? analysis of face-to-face behavioral networks. J. of Theoretical Biology, 271(1):166--180, 2011.

BibTeX