Simulate Log-Gaussian Cox Process

Generate a random point pattern, a realisation of the log-Gaussian Cox process.

rLGCP(model="exp", mu = 0, param = NULL, ..., win=NULL, saveLambda=TRUE)
character string: the short name of a covariance model for the Gaussian random field. After adding the prefix "RM", the code will search for a function of this name in the RandomFields package.
mean function of the Gaussian random field. Either a single number, a function(x,y, ...) or a pixel image (object of class "im").
List of parameters for the covariance. Standard arguments are var and scale.
Additional parameters for the covariance, or arguments passed to as.mask to determine the pixel resolution.
Window in which to simulate the pattern. An object of class "owin".
Logical. If TRUE (the default) then the simulated random intensity will also be saved, and returns as an attribute of the point pattern.

This function generates a realisation of a log-Gaussian Cox process (LGCP). This is a Cox point process in which the logarithm of the random intensity is a Gaussian random field with mean function $\mu$ and covariance function $c(r)$. Conditional on the random intensity, the point process is a Poisson process with this intensity.

The string model specifies the covariance function of the Gaussian random field, and the parameters of the covariance are determined by param and ....

To determine the covariance model, the string model is prefixed by "RM", and a function of this name is sought in the RandomFields package. For a list of available models see RMmodel in the RandomFields package. For example the latex{Mat'ern}{Matern} covariance is specified by model="matern", corresponding to the function RMmatern in the RandomFields package.

Standard variance parameters (for all functions beginning with "RM" in the RandomFields package) are var for the variance at distance zero, and scale for the scale parameter. Other parameters are specified in the help files for the individual functions beginning with "RM". For example the help file for RMmatern states that nu is a parameter for this model.

This algorithm uses the function RFsimulate in the RandomFields package to generate values of a Gaussian random field, with the specified mean function mu and the covariance specified by the arguments model and param, on the points of a regular grid. The exponential of this random field is taken as the intensity of a Poisson point process, and a realisation of the Poisson process is then generated by the function rpoispp in the spatstat package. If the simulation window win is missing or NULL, then it defaults to Window(mu) if mu is a pixel image, and it defaults to the unit square otherwise. The LGCP model can be fitted to data using kppm.


  • The simulated point pattern (an object of class "ppp").

    Additionally, the simulated intensity function is returned as an attribute "Lambda", if saveLambda=TRUE.


latex{Mller{Moller}, J., Syversveen, A. and Waagepetersen, R. (1998) Log Gaussian Cox Processes. Scandinavian Journal of Statistics 25, 451--482. } if(require(RandomFields)) { # homogeneous LGCP with exponential covariance function X <- rLGCP("exp", 3, var=0.2, scale=.1)

# inhomogeneous LGCP with Gaussian covariance function m <- as.im(function(x, y){5 - 1.5 * (x - 0.5)^2 + 2 * (y - 0.5)^2}, W=owin()) X <- rLGCP("gauss", m, var=0.15, scale =0.5) plot(attr(X, "Lambda")) points(X)

# inhomogeneous LGCP with Matern covariance function X <- rLGCP("matern", function(x, y){ 1 - 0.4 * x}, var=2, scale=0.7, nu=0.5, win = owin(c(0, 10), c(0, 10))) plot(X) } else message("Simulation requires the RandomFields package")

[object Object],[object Object],[object Object],[object Object] spatial datagen

See Also

rpoispp, rMatClust, rGaussPoisson, rNeymanScott, lgcp.estK, kppm

  • rLGCP
Documentation reproduced from package spatstat, version 1.41-1, License: GPL (>= 2)

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