R: Squared euclidean distance latent space, with optional...

euclidean2-ergmTerm {latentnet}

R Documentation

Squared euclidean distance latent space, with optional clustering

Description

Adds a term to the model equal to the negative Eucledean distance -||Z_i-Z_j||^2, where Z_i and Z_j are the positions of their respective actors in an unobserved social space. These positions may optionally have a finite spherical Gaussian mixture clustering structure. This term was previously called latent.

Important: This term works in latentnet's ergmm() only. Using it in ergm() will result in an error.

Usage

# binary: euclidean(d, G=0, var.mul=1/8, var=NULL, var.df.mul=1, var.df=NULL,
#             mean.var.mul=1, mean.var=NULL, pK.mul=1, pK=NULL)

# valued: euclidean(d, G=0, var.mul=1/8, var=NULL, var.df.mul=1, var.df=NULL,
#             mean.var.mul=1, mean.var=NULL, pK.mul=1, pK=NULL)

Arguments

`d`	The dimension of the latent space.
`G`	The number of groups (0 for no clustering).
`var.mul`	In the absence of `var`, this argument will be used as a scaling factor for a function of average cluster size and latent space dimension to set `var`. To set it in the `prior` argument to `ergmm`, use `Z.var.mul`.
`var`	If given, the scale parameter for the scale-inverse-chi-squared prior distribution of the within-cluster variance. To set it in the `prior` argument to `ergmm`, use `Z.var`.
`var.df.mul`	In the absence of `var.df`, this argument is the multiplier for the square root of average cluster size, which serves in place of `var.df`. To set it in the `prior` argument to `ergmm`, use `Z.var.df.mul`.
`var.df`	The degrees of freedom parameter for the scale-inverse-chi-squared prior distribution of the within-cluster variance. To set it in the `prior` argument to `ergmm`, use `Z.var.df`.
`mean.var.mul`	In the absence of `mean.var`, the multiplier for a function of number of vertices and latent space dimension to set `mean.var`. To set it in the `prior` argument to `ergmm`, use `Z.mean.var.mul`.
`mean.var`	The variance of the spherical Gaussian prior distribution of the cluster means. To set it in the `prior` argument to `ergmm`, use `Z.mean.var`.
`pK.mul`	In the absence of `pK`, this argument is the multiplier for the square root of the average cluster size, which is used as `pK`. To set it in the `prior` argument to `ergmm`, use `Z.pK`.
`pK`	The parameter of the Dirichilet prior distribution of cluster assignment probabilities. To set it in the `prior` argument to `ergmm`, use `Z.pK`.

Details

The following parameters are associated with this term:

Z: Numeric matrix with rows being latent space positions.
Z.K (when \code{G}>0): Integer vector of cluster assignments.
Z.mean (when \code{G}>0): Numeric matrix with rows being cluster means.
Z.var (when \code{G}>0): Depending on the model, either a numeric vector with within-cluster variances or a numeric scalar with the overal latent space variance.
Z.pK (when \code{G}>0): Numeric vector of probabilities of a vertex being in a particular cluster.

Squared euclidean distance latent space, with optional clustering

Description

Usage

Arguments

Details

See Also

Keywords