The Multitype Strauss Point Process Model

Creates an instance of the multitype Strauss point process model which can then be fitted to point pattern data.

models, spatial
MultiStrauss(types, radii)
Vector of all possible types (i.e. the possible levels of the marks variable in the data)
Matrix of interaction radii

The (stationary) multitype Strauss process with $m$ types, with interaction radii $r_{ij}$ and parameters $\beta_j$ and $\gamma_{ij}$ is the pairwise interaction point process in which each point of type $j$ contributes a factor $\beta_j$ to the probability density of the point pattern, and a pair of points of types $i$ and $j$ closer than $r_{ij}$ units apart contributes a factor $\gamma_{ij}$ to the density.

The nonstationary multitype Strauss process is similar except that the contribution of each individual point $x_i$ is a function $\beta(x_i)$ of location and type, rather than a constant beta. The function ppm(), which fits point process models to point pattern data, requires an argument of class "interact" describing the interpoint interaction structure of the model to be fitted. The appropriate description of the multitype Strauss process pairwise interaction is yielded by the function MultiStrauss(). See the examples below.

The matrix radii must be symmetric, with entries which are either positive numbers or NA. A value of NA indicates that no interaction term should be included for this combination of types. Note that only the interaction radii are specified in MultiStrauss. The canonical parameters $\log(\beta_j)$ and $\log(\gamma_{ij})$ are estimated by ppm(), not fixed in Strauss().


  • An object of class "interact" describing the interpoint interaction structure of the multitype Strauss process with interaction radii $radii[i,j]$.


The argument types is interpreted as a set of factor levels. That is, in order that ppm can fit the multitype Strauss model correctly to a point pattern X, this must be a marked point pattern; the mark vector X$marks must be a factor; and the argument types must equal levels(X$marks).

See Also

ppm,, ppm.object, Strauss

  • MultiStrauss
r <- matrix(c(1,2,2,1), nrow=2,ncol=2)
   MultiStrauss(1:2, r)
   # prints a sensible description of itself
   r <- 30.0 * matrix(c(1,2,2,1), nrow=2,ncol=2)
   ppm(betacells, ~1, MultiStrauss(c("off","on"), r))
   # fit the stationary multitype Strauss process to `betacells'

   ppm(betacells, ~polynom(x,y,3), MultiStrauss(c("off","on"), r))
   # fit a nonstationary Strauss process with log-cubic polynomial trend
Documentation reproduced from package spatstat, version 1.16-2, License: GPL (>= 2)

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