pcfinhom: Inhomogeneous Pair Correlation Function
In spatstat.core: Core Functionality of the 'spatstat' Family

pcfinhom

R Documentation

Inhomogeneous Pair Correlation Function

Description

Estimates the inhomogeneous pair correlation function of a point pattern using kernel methods.

Usage

pcfinhom(X, lambda = NULL, ..., r = NULL,
         kernel = "epanechnikov", bw = NULL, stoyan = 0.15,
         correction = c("translate", "Ripley"),
         divisor = c("r", "d"),
         renormalise = TRUE, normpower=1,
         update = TRUE, leaveoneout = TRUE,
         reciplambda = NULL,
         sigma = NULL, varcov = NULL, close=NULL)

Arguments

`X`	A point pattern (object of class `"ppp"`).
`lambda`	Optional. Values of the estimated intensity function. Either a vector giving the intensity values at the points of the pattern `X`, a pixel image (object of class `"im"`) giving the intensity values at all locations, a fitted point process model (object of class `"ppm"`, `"kppm"` or `"dppm"`) or a `function(x,y)` which can be evaluated to give the intensity value at any location.
`r`	Vector of values for the argument r at which g(r) should be evaluated. There is a sensible default.
`kernel`	Choice of smoothing kernel, passed to `density.default`.
`bw`	Bandwidth for smoothing kernel, passed to `density.default`. Either a single numeric value, or a character string specifying a bandwidth selection rule recognised by `density.default`. If `bw` is missing or `NULL`, the default value is computed using Stoyan's rule of thumb: see `bw.stoyan`.
`...`	Other arguments passed to the kernel density estimation function `density.default`.
`stoyan`	Coefficient for Stoyan's bandwidth selection rule; see `bw.stoyan`.
`correction`	Character string or character vector specifying the choice of edge correction. See `Kest` for explanation and options.
`divisor`	Choice of divisor in the estimation formula: either `"r"` (the default) or `"d"`. See `pcf.ppp`.
`renormalise`	Logical. Whether to renormalise the estimate. See Details.
`normpower`	Integer (usually either 1 or 2). Normalisation power. See Details.
`update`	Logical. If `lambda` is a fitted model (class `"ppm"`, `"kppm"` or `"dppm"`) and `update=TRUE` (the default), the model will first be refitted to the data `X` (using `update.ppm` or `update.kppm`) before the fitted intensity is computed. If `update=FALSE`, the fitted intensity of the model will be computed without re-fitting it to `X`.
`leaveoneout`	Logical value (passed to `density.ppp` or `fitted.ppm`) specifying whether to use a leave-one-out rule when calculating the intensity.
`reciplambda`	Alternative to `lambda`. Values of the estimated reciprocal 1/lambda of the intensity function. Either a vector giving the reciprocal intensity values at the points of the pattern `X`, a pixel image (object of class `"im"`) giving the reciprocal intensity values at all locations, or a `function(x,y)` which can be evaluated to give the reciprocal intensity value at any location.
`sigma,varcov`	Optional arguments passed to `density.ppp` to control the smoothing bandwidth, when `lambda` is estimated by kernel smoothing.
`close`	Advanced use only. Precomputed data. See section on Advanced Use.

Details

The inhomogeneous pair correlation function ginhom(r) is a summary of the dependence between points in a spatial point process that does not have a uniform density of points.

The best intuitive interpretation is the following: the probability p(r) of finding two points at locations x and y separated by a distance r is equal to

p(r) = lambda(x) * lambda(y) * g(r) dx dy

where lambda is the intensity function of the point process. For a Poisson point process with intensity function lambda, this probability is p(r) = lambda(x) * lambda(y) so ginhom(r) = 1.

The inhomogeneous pair correlation function is related to the inhomogeneous K function through

ginhom(r) = Kinhom'(r)/ ( 2 * pi * r)

where Kinhom'(r) is the derivative of Kinhom(r), the inhomogeneous K function. See Kinhom for information about Kinhom(r).

The command pcfinhom estimates the inhomogeneous pair correlation using a modified version of the algorithm in pcf.ppp.

If renormalise=TRUE (the default), then the estimates are multiplied by c^normpower where c = area(W)/sum[i] (1/lambda(x[i])). This rescaling reduces the variability and bias of the estimate in small samples and in cases of very strong inhomogeneity. The default value of normpower is 1 but the most sensible value is 2, which would correspond to rescaling the lambda values so that sum[i] (1/lambda(x[i])) = area(W).

Value

A function value table (object of class "fv"). Essentially a data frame containing the variables

`r`	the vector of values of the argument r at which the inhomogeneous pair correlation function ginhom(r) has been estimated
`theo`	vector of values equal to 1, the theoretical value of ginhom(r) for the Poisson process
`trans`	vector of values of ginhom(r) estimated by translation correction
`iso`	vector of values of ginhom(r) estimated by Ripley isotropic correction

as required.

Advanced Use

To perform the same computation using several different bandwidths bw, it is efficient to use the argument close. This should be the result of closepairs(X, rmax) for a suitably large value of rmax, namely rmax >= max(r) + 3 * bw.

Author(s)

\spatstatAuthors

Examples

  data(residualspaper)
  X <- residualspaper$Fig4b
  plot(pcfinhom(X, stoyan=0.2, sigma=0.1))
  fit <- ppm(X, ~polynom(x,y,2))
  plot(pcfinhom(X, lambda=fit, normpower=2))

spatstat.core documentation built on May 18, 2022, 9:05 a.m.