Description Usage Arguments Details Value Author(s) References Examples
Applies the Triangulated Maximally Filtered Graph (TMFG) filtering method
(Please see and cite Massara et al., 2016). The TMFG method uses a structural
constraint that limits the number of zero-order correlations included in the network
(3n - 6; where n is the number of variables). The TMFG algorithm begins by
identifying four variables which have the largest sum of correlations to all other
variables. Then, it iteratively adds each variable with the largest sum of three
correlations to nodes already in the network until all variables have been added to
the network. This structure can be associated with the inverse correlation matrix
(i.e., precision matrix) to be turned into a GGM (i.e., partial correlation network)
by using LoGo
. See Details for more information on this
network estimation method.
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data |
Can be a dataset or a correlation matrix |
normal |
Should data be transformed to a normal distribution?
Input must be a dataset.
Defaults to |
na.data |
How should missing data be handled?
For |
depend |
Is network a dependency (or directed) network?
Defaults to |
The TMFG method applies a structural constraint on the network, which restrains the network to retain a certain number of edges (3n-6, where n is the number of nodes; Massara et al., 2016). The network is also composed of 3- and 4-node cliques (i.e., sets of connected nodes; a triangle and tetrahedron, respectively). The TMFG method constructs a network using zero-order correlations and the resulting network can be associated with the inverse covariance matrix (yielding a GGM; Barfuss, Massara, Di Matteo, & Aste, 2016). Notably, the TMFG can use any association measure and thus does not assume the data is multivariate normal.
Construction begins by forming a tetrahedron of the four nodes that have the highest sum of correlations that are greater than the average correlation in the correlation matrix. Next, the algorithm iteratively identifies the node that maximizes its sum of correlations to a connected set of three nodes (triangles) already included in the network and then adds that node to the network. The process is completed once every node is connected in the network. In this process, the network automatically generates what’s called a planar network. A planar network is a network that could be drawn on a sphere with no edges crossing (often, however, the networks are depicted with edges crossing; Tumminello, Aste, Di Matteo, & Mantegna, 2005).
Returns a list containing:
A |
The filtered adjacency matrix |
separators |
The separators (3-cliques) in the network
(wrapper output for |
cliques |
The cliques (4-cliques) in the network
(wrapper output for |
Alexander Christensen <alexpaulchristensen@gmail.com>
Christensen, A. P., Kenett, Y. N., Aste, T., Silvia, P. J., & Kwapil, T. R. (2018). Network structure of the Wisconsin Schizotypy Scales-Short Forms: Examining psychometric network filtering approaches. Behavior Research Methods, 50, 2531-2550.
Massara, G. P., Di Matteo, T., & Aste, T. (2016). Network filtering for big data: Triangulated maximally filtered graph. Journal of Complex Networks, 5, 161-178.
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