matclust.estpcf

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Fit the Matern Cluster Point Process by Minimum Contrast Using Pair Correlation

Fits the Matern Cluster point process to a point pattern dataset by the Method of Minimum Contrast using the pair correlation function.

Usage
matclust.estpcf(X, startpar=c(kappa=1,scale=1), lambda=NULL,
q = 1/4, p = 2, rmin = NULL, rmax = NULL, ...,
pcfargs=list())
Arguments
X
Data to which the Matern Cluster model will be fitted. Either a point pattern or a summary statistic. See Details.
startpar
Vector of starting values for the parameters of the Matern Cluster process.
lambda
Optional. An estimate of the intensity of the point process.
q,p
Optional. Exponents for the contrast criterion.
rmin, rmax
Optional. The interval of $r$ values for the contrast criterion.
...
Optional arguments passed to optim to control the optimisation algorithm. See Details.
pcfargs
Optional list containing arguments passed to pcf.ppp to control the smoothing in the estimation of the pair correlation function.
Details

This algorithm fits the Matern Cluster point process model to a point pattern dataset by the Method of Minimum Contrast, using the pair correlation function.

The argument X can be either [object Object],[object Object]

The algorithm fits the Matern Cluster point process to X, by finding the parameters of the Matern Cluster model which give the closest match between the theoretical pair correlation function of the Matern Cluster process and the observed pair correlation function. For a more detailed explanation of the Method of Minimum Contrast, see mincontrast. The Matern Cluster point process is described in latex{Mller{Moller} and Waagepetersen (2003, p. 62). It is a cluster process formed by taking a pattern of parent points, generated according to a Poisson process with intensity $\kappa$, and around each parent point, generating a random number of offspring points, such that the number of offspring of each parent is a Poisson random variable with mean $\mu$, and the locations of the offspring points of one parent are independent and uniformly distributed inside a circle of radius $R$ centred on the parent point, where $R$ is equal to the parameter scale. The named vector of stating values can use either R or scale as the name of the second component, but the latter is recommended for consistency with other cluster models.

The theoretical pair correlation function of the Matern Cluster process is $$g(r) = 1 + \frac 1 {4\pi R \kappa r} h(\frac{r}{2R})$$ where the radius R is the parameter scale and $$h(z) = \frac {16} \pi [ z \mbox{arccos}(z) - z^2 \sqrt{1 - z^2} ]$$ for $z <= 1$,="" and="" $h(z)="0$" for="" $z=""> 1$. The theoretical intensity of the Matern Cluster process is $\lambda = \kappa \mu$.

In this algorithm, the Method of Minimum Contrast is first used to find optimal values of the parameters $\kappa$ and $R$. Then the remaining parameter $\mu$ is inferred from the estimated intensity $\lambda$.

If the argument lambda is provided, then this is used as the value of $\lambda$. Otherwise, if X is a point pattern, then $\lambda$ will be estimated from X. If X is a summary statistic and lambda is missing, then the intensity $\lambda$ cannot be estimated, and the parameter $\mu$ will be returned as NA.

The remaining arguments rmin,rmax,q,p control the method of minimum contrast; see mincontrast.

The Matern Cluster process can be simulated, using rMatClust.

Homogeneous or inhomogeneous Matern Cluster models can also be fitted using the function kppm.

The optimisation algorithm can be controlled through the additional arguments "..." which are passed to the optimisation function optim. For example, to constrain the parameter values to a certain range, use the argument method="L-BFGS-B" to select an optimisation algorithm that respects box constraints, and use the arguments lower and upper to specify (vectors of) minimum and maximum values for each parameter. } An object of class "minconfit". There are methods for printing and plotting this object. It contains the following main components: par{Vector of fitted parameter values.} fit{Function value table (object of class "fv") containing the observed values of the summary statistic (observed) and the theoretical values of the summary statistic computed from the fitted model parameters. } latex{Mller{Moller}, J. and Waagepetersen, R. (2003). Statistical Inference and Simulation for Spatial Point Processes. Chapman and Hall/CRC, Boca Raton.

Waagepetersen, R. (2007) An estimating function approach to inference for inhomogeneous Neyman-Scott processes. Biometrics 63, 252--258. } [object Object] kppm, matclust.estK, thomas.estpcf, thomas.estK, lgcp.estK, mincontrast, pcf, rMatClust to simulate the fitted model. data(redwood) u <- matclust.estpcf(redwood, c(kappa=10, R=0.1)) u plot(u, legendpos="topright") spatial models

Aliases
• matclust.estpcf
Documentation reproduced from package spatstat, version 1.41-1, License: GPL (>= 2)

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