dynEGA.ind.pop: Intra- and Inter-individual 'dynEGA'

In hfgolino/EGA: Exploratory Graph Analysis – a Framework for Estimating the Number of Dimensions in Multivariate Data using Network Psychometrics

Intra- and Inter-individual dynEGA

Description

A wrapper function to estimate both intraindividiual (level = "individual") and interindividual (level = "population") structures using dynEGA

Usage

dynEGA.ind.pop(
  data,
  id = NULL,
  n.embed = 5,
  tau = 1,
  delta = 1,
  use.derivatives = 1,
  corr = c("auto", "cor_auto", "pearson", "spearman"),
  na.data = c("pairwise", "listwise"),
  model = c("BGGM", "glasso", "TMFG"),
  algorithm = c("leiden", "louvain", "walktrap"),
  uni.method = c("expand", "LE", "louvain"),
  ncores,
  verbose = TRUE,
  ...
)

Arguments

data	Matrix or data frame. Participants and variable should be in long format such that row t represents observations for all variables at time point t for a participant. The next row, t + 1, represents the next measurement occasion for that same participant. The next participant's data should immediately follow, in the same pattern, after the previous participant data should have an ID variable labeled "ID"; otherwise, it is assumed that the data represent the population For groups, data should have a Group variable labeled "Group"; otherwise, it is assumed that there are no groups in data Arguments id and group can be specified to tell the function which column in data it should use as the ID and Group variable, respectively A measurement occasion variable is not necessary and should be removed from the data before proceeding with the analysis
id	Numeric or character (length = 1). Number or name of the column identifying each individual. Defaults to NULL
n.embed	Numeric (length = 1). Defaults to 5. Number of embedded dimensions (the number of observations to be used in the Embed function). For example, an "n.embed = 5" will use five consecutive observations to estimate a single derivative
tau	Numeric (length = 1). Defaults to 1. Number of observations to offset successive embeddings in the Embed function. Generally recommended to leave "as is"
delta	Numeric (length = 1). Defaults to 1. The time between successive observations in the time series (i.e, lag). Generally recommended to leave "as is"
use.derivatives	Numeric (length = 1). Defaults to 1. The order of the derivative to be used in the analysis. Available options: 0 — No derivatives; consistent with moving average 1 — First-order derivatives; interpreted as "velocity" or rate of change over time 2 — Second-order derivatives; interpreted as "acceleration" or rate of the rate of change over time Generally recommended to leave "as is"
corr	Character (length = 1). Method to compute correlations. Defaults to "auto". Available options: "auto" — Automatically computes appropriate correlations for the data using Pearson's for continuous, polychoric for ordinal, tetrachoric for binary, and polyserial/biserial for ordinal/binary with continuous. To change the number of categories that are considered ordinal, use ordinal.categories (see polychoric.matrix for more details) "cor_auto" — Uses cor_auto to compute correlations. Arguments can be passed along to the function "pearson" — Pearson's correlation is computed for all variables regardless of categories "spearman" — Spearman's rank-order correlation is computed for all variables regardless of categories For other similarity measures, compute them first and input them into data with the sample size (n)
na.data	Character (length = 1). How should missing data be handled? Defaults to "pairwise". Available options: "pairwise" — Computes correlation for all available cases between two variables "listwise" — Computes correlation for all complete cases in the dataset
model	Character (length = 1). Defaults to "glasso". Available options: "BGGM" — Computes the Bayesian Gaussian Graphical Model. Set argument ordinal.categories to determine levels allowed for a variable to be considered ordinal. See ?BGGM::estimate for more details "glasso" — Computes the GLASSO with EBIC model selection. See EBICglasso.qgraph for more details "TMFG" — Computes the TMFG method. See TMFG for more details
algorithm	Character or igraph cluster_* function (length = 1). Defaults to "walktrap". Three options are listed below but all are available (see community.detection for other options): "leiden" — See cluster_leiden for more details "louvain" — By default, "louvain" will implement the Louvain algorithm using the consensus clustering method (see community.consensus for more information). This function will implement consensus.method = "most_common" and consensus.iter = 1000 unless specified otherwise "walktrap" — See cluster_walktrap for more details
uni.method	Character (length = 1). What unidimensionality method should be used? Defaults to "louvain". Available options: "expand" — Expands the correlation matrix with four variables correlated 0.50. If number of dimension returns 2 or less in check, then the data are unidimensional; otherwise, regular EGA with no matrix expansion is used. This method was used in the Golino et al.'s (2020) Psychological Methods simulation "LE" — Applies the Leading Eigenvector algorithm (cluster_leading_eigen) on the empirical correlation matrix. If the number of dimensions is 1, then the Leading Eigenvector solution is used; otherwise, regular EGA is used. This method was used in the Christensen et al.'s (2023) Behavior Research Methods simulation "louvain" — Applies the Louvain algorithm (cluster_louvain) on the empirical correlation matrix. If the number of dimensions is 1, then the Louvain solution is used; otherwise, regular EGA is used. This method was validated Christensen's (2022) PsyArXiv simulation. Consensus clustering can be used by specifying either "consensus.method" or "consensus.iter"
ncores	Numeric (length = 1). Number of cores to use in computing results. Defaults to ceiling(parallel::detectCores() / 2) or half of your computer's processing power. Set to 1 to not use parallel computing If you're unsure how many cores your computer has, then type: parallel::detectCores()
verbose	Boolean (length = 1). Should progress be displayed? Defaults to TRUE. Set to FALSE to not display progress
...	Additional arguments to be passed on to auto.correlate, network.estimation, community.detection, community.consensus, and EGA

Value

Same output as EGAnet{dynEGA} returning list objects for level = "individual" and level = "population"

Author(s)

Hudson Golino <hfg9s at virginia.edu>

See Also

plot.EGAnet for plot usage in EGAnet

Examples

# Obtain data
sim.dynEGA <- sim.dynEGA # bypasses CRAN checks

## Not run: 
# Dynamic EGA individual and population structure
dyn.ega1 <- dynEGA.ind.pop(
  data = sim.dynEGA, n.embed = 5, tau = 1,
  delta = 1, id = 25, use.derivatives = 1,
  ncores = 2, corr = "pearson"
)
## End(Not run)

hfgolino/EGA documentation built on Nov. 11, 2024, 9:28 p.m.