Skip to content

TILES: an algorithm for community discovery in dynamic social networks

Notifications You must be signed in to change notification settings

GiulioRossetti/TILES

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

78 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

TILES - Dynamic Community Discovery

Build Status Coverage Status pyversions PyPI version Updates BCH compliance DOI PyPI download month

Community discovery has emerged during the last decade as one of the most challenging problems in social network analysis. Many algorithms have been proposed to find communities on static networks, i.e. networks which do not change in time. However, social networks are dynamic realities (e.g. call graphs, online social networks): in such scenarios static community discovery fails to identify a partition of the graph that is semantically consistent with the temporal information expressed by the data. Tiles is an algorithm that extracts overlapping communities and tracks their evolution in time following an online iterative procedure. It operates following a domino effect strategy which dynamically recomputes nodes community memberships whenever a new interaction takes place.

Citation

If you use our algorithm please cite the following work:

Giulio Rossetti, Luca Pappalardo, Dino Pedreschi, Fosca Giannotti (2016): "Tiles: an online algorithm for community discovery in dynamic social networks". In: Machine Learning Journal, 2016. 10.1007/s10994-016-5582-8

Installation

In order to install the package just download (or clone) the current project and copy the demon folder in the root of your application.

Alternatively use pip:

sudo pip install tiles

Implementation details

Two implementation of Tiles are available on this repository:

  • Vanilla (TILES)
  • Edge explicit removal (eTILES)

The former implementation is designed to cope with datasets for which edge vanishing events are not explicitly expressed: it implements an edge decay strategy (as detailed in the original paper). Conversely, the latter, implementation assume explict knowledge of edge vanishing events.

Both the implementations require as input an edgelist file (tab separated) with the following specs:

(TILES - Vanilla)

node_id0    node_id1    timestamp

(eTILES - Explicit removal)

action  node_id0    node_id1    timestamp

Where accepted actions are: edge removal (identified by -) and edge creation (identified by +). Timestamps are (seconds truncated) unix timestamps. The input file should present interactions chronologically ordered from the oldest (first line) to the newest (last file line)

Execution

Tiles is written in python and requires the following package to run:

  • networkx

The algorithm can be used as standalone program as well as integrated in python scripts.

Standalone

python tiles filename -o obs -p path -m TTL|Explicit [-t ttl]

where:

  • filename: edgelist filename
  • obs: number of days from a community observation to the subsequent one (default 7)
  • mode: either to execute TILES or eTILES (explicit edge removal)
  • ttl: edge time to live in days. (Optional. Default +inf, i.e. no edge removal)
  • path: existing folder for the output files (optional)

The explicit removal version does not expose the ttl parameter.

As python library

import tiles as t
tl = t.TILES("filename.tsc", ttl=7, obs=30)
tl.execute()

or

import tiles as t
tl = t.eTILES("filename.tsc", obs=30)
tl.execute()

Execution Results

Tiles will output, for each observation window, a series of gzip files describing:

  • current graph status
  • current community partition
  • community merged
  • community splitted

Moreover an "extraction_status.txt" files will be generated containing detailed information on Tiles'execution.

About

TILES: an algorithm for community discovery in dynamic social networks

doi:10.1007/s10994-016-5582-8

Topics

Resources

Stars

Watchers

Forks

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •  

Languages