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spatstat.explore (version 3.1-0)

segregation.test: Test of Spatial Segregation of Types

Description

Performs a Monte Carlo test of spatial segregation of the types in a multitype point pattern.

Usage

segregation.test(X, ...)

# S3 method for ppp segregation.test(X, ..., nsim = 19, permute = TRUE, verbose = TRUE, Xname)

Value

An object of class "htest" representing the result of the test.

Arguments

X

Multitype point pattern (object of class "ppp" with factor-valued marks).

...

Additional arguments passed to relrisk.ppp to control the smoothing parameter or bandwidth selection.

nsim

Number of simulations for the Monte Carlo test.

permute

Argument passed to rlabel. If TRUE (the default), randomisation is performed by randomly permuting the labels of X. If FALSE, randomisation is performing by resampling the labels with replacement.

verbose

Logical value indicating whether to print progress reports.

Xname

Optional character string giving the name of the dataset X.

Author

Adrian Baddeley Adrian.Baddeley@curtin.edu.au, Rolf Turner r.turner@auckland.ac.nz and Ege Rubak rubak@math.aau.dk.

Details

The Monte Carlo test of spatial segregation of types, proposed by Kelsall and Diggle (1995) and Diggle et al (2005), is applied to the point pattern X. The test statistic is $$ T = \sum_i \sum_m \left( \widehat p(m \mid x_i) - \overline p_m \right)^2 $$ where \(\widehat p(m \mid x_i)\) is the leave-one-out kernel smoothing estimate of the probability that the \(i\)-th data point has type \(m\), and \(\overline p_m\) is the average fraction of data points which are of type \(m\). The statistic \(T\) is evaluated for the data and for nsim randomised versions of X, generated by randomly permuting or resampling the marks.

Note that, by default, automatic bandwidth selection will be performed separately for each randomised pattern. This computation can be very time-consuming but is necessary for the test to be valid in most conditions. A short-cut is to specify the value of the smoothing bandwidth sigma as shown in the examples.

References

Kelsall, J.E. and Diggle, P.J. (1995) Kernel estimation of relative risk. Bernoulli 1, 3--16.

Diggle, P.J., Zheng, P. and Durr, P. (2005) Non-parametric estimation of spatial segregation in a multivariate point process: bovine tuberculosis in Cornwall, UK. Applied Statistics 54, 645--658.

See Also

relrisk

Examples

Run this code
  segregation.test(hyytiala, 5)

  if(interactive()) segregation.test(hyytiala, hmin=0.05) 

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