Calculates an estimate of the inhomogeneous version of Ripley's L-function for a spatial point pattern.

spatial, nonparametric
Arguments passed to Kinhom to estimate the inhomogeneous K-function.

This command computes an estimate of the inhomogeneous version of the L-function for a spatial point pattern

The original L-function is a transformation of Ripley's K-function, $$L(r) = \sqrt{\frac{K(r)}{\pi}}$$ where $K(r)$ is the Ripley K-function of a spatially homogeneous point pattern, estimated by Kest.

The inhomogeneous L-function is the corresponding transformation of the inhomogeneous K-function, estimated by Kinhom. It is appropriate when the point pattern clearly does not have a homogeneous intensity of points.

The command Linhom first calls Kinhom to compute the estimate of the inhomogeneous K-function, and then applies the square root transformation.

For a Poisson point pattern (homogeneous or inhomogeneous), the theoretical value of the inhomogeneous L-function is $L(r) = r$. The square root also has the effect of stabilising the variance of the estimator, so that L is more appropriate for use in simulation envelopes and hypothesis tests.


  • An object of class "fv", see fv.object, which can be plotted directly using plot.fv.

    Essentially a data frame containing columns

  • rthe vector of values of the argument $r$ at which the function $L$ has been estimated
  • theothe theoretical value $L(r) = r$ for a stationary Poisson process
  • together with columns named "border", "bord.modif", "iso" and/or "trans", according to the selected edge corrections. These columns contain estimates of the function $L(r)$ obtained by the edge corrections named.

See Also

Kest, Lest, Kinhom, pcf

  • Linhom
 X <- japanesepines
 L <- Linhom(X, sigma=0.1)
 plot(L, main="Inhomogeneous L function for Japanese Pines")
Documentation reproduced from package spatstat, version 1.18-1, License: GPL (>= 2)

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