Learn R Programming

spatstat (version 1.20-2)

Poisson: Poisson Point Process Model

Description

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

Usage

Poisson()

Arguments

Value

  • An object of class "interact" describing the interpoint interaction structure of the Poisson point process (namely, there are no interactions).

Details

The function ppm, which fits point process models to point pattern data, requires an argument interaction of class "interact" describing the interpoint interaction structure of the model to be fitted. The appropriate description of the Poisson process is provided by the value of the function Poisson.

This works for all types of Poisson processes including multitype and nonstationary Poisson processes.

See Also

ppm, Strauss, StraussHard

Examples

Run this code
data(nztrees)
 ppm(nztrees, ~1, Poisson())
 # fit the stationary Poisson process to 'nztrees'
 # no edge correction needed

 data(longleaf)
 <testonly>longleaf <- longleaf[seq(1, longleaf$n, by=50)]</testonly>
 longadult <- longleaf[longleaf$marks >= 30, ]
 longadult <- unmark(longadult)
 ppm(longadult, ~ x, Poisson())
 # fit the nonstationary Poisson process 
 # with intensity lambda(x,y) = exp( a + bx)

 data(lansing)
 # trees marked by species
 <testonly>lansing <- lansing[seq(1,lansing$n, by=30), ]</testonly>
 ppm(lansing, ~ marks, Poisson())
 # fit stationary marked Poisson process
 # with different intensity for each species

ppm(lansing, ~ marks * polynom(x,y,3), Poisson())
 # fit nonstationary marked Poisson process
 # with different log-cubic trend for each species
<testonly># equivalent functionality - smaller dataset
 data(betacells)
 ppm(betacells, ~ marks * polynom(x,y,2), Poisson())</testonly>

Run the code above in your browser using DataLab