stable

An adjacency matrix of network data

Can be a vector of community assignments or community detection algorithms
(<code>"walktrap"</code> or <code>"louvain"</code>) can be used to determine the number of factors.
Defaults to <code>"walktrap"</code>.
Set to <code>"louvain"</code> for <code><a rd-options="NetworkToolbox" href="/link/louvain?package=NetworkToolbox&version=1.4.2&to=NetworkToolbox" data-mini-rdoc="NetworkToolbox::louvain">louvain</a></code> community detection

comm

Centrality measure to be used.
Defaults to <code>"strength"</code>.

cent

Should network use absolute weights?
Defaults to <code>TRUE</code>.
Set to <code>FALSE</code> for signed weights

absolute

Sets the diagonal values of the <code>A</code> input.
Defaults to <code>0</code>

diagonal

Additional arguments for <code><a rd-options="igraph" href="/link/cluster_walktrap?package=NetworkToolbox&version=1.4.2&to=igraph" data-mini-rdoc="igraph::cluster_walktrap">cluster_walktrap</a></code>
and <code><a rd-options="NetworkToolbox" href="/link/louvain?package=NetworkToolbox&version=1.4.2&to=NetworkToolbox" data-mini-rdoc="NetworkToolbox::louvain">louvain</a></code> community detection algorithms

Computes the within-community centrality for each node in the network

Implements network analysis and graph theory measures used in neuroscience, cognitive science, and psychology. Methods include various filtering methods and approaches such as threshold, dependency (Kenett, Tumminello, Madi, Gur-Gershgoren, Mantegna, & Ben-Jacob, 2010 <doi:10.1371/journal.pone.0015032>), Information Filtering Networks (Barfuss, Massara, Di Matteo, & Aste, 2016 <doi:10.1103/PhysRevE.94.062306>), and Efficiency-Cost Optimization (Fallani, Latora, & Chavez, 2017 <doi:10.1371/journal.pcbi.1005305>). Brain methods include the recently developed Connectome Predictive Modeling (see references in package). Also implements several network measures including local network characteristics (e.g., centrality), community-level network characteristics (e.g., community centrality), global network characteristics (e.g., clustering coefficient), and various other measures associated with the reliability and reproducibility of network analysis.

Alexander Christensen

NetworkToolbox

Methods and Measures for Brain, Cognitive, and Psychometric
Network Analysis

Guido Previde Massara

stable function

Can be a vector of community assignments or community detection algorithms
(<code>"walktrap"</code> or <code>"louvain"</code>) can be used to determine the number of factors.
Defaults to <code>"walktrap"</code>.
Set to <code>"louvain"</code> for <code><a rd-options='NetworkToolbox' href='louvain'>louvain</a></code> community detection

Additional arguments for <code><a rd-options='igraph' href='cluster_walktrap'>cluster_walktrap</a></code>
and <code><a rd-options='NetworkToolbox' href='louvain'>louvain</a></code> community detection algorithms

stable: Stabilizing Nodes

Description

Usage

Arguments

Value

References

Examples