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spatstat.explore (version 3.3-3)

Lest: L-function

Description

Calculates an estimate of the \(L\)-function (Besag's transformation of Ripley's \(K\)-function) for a spatial point pattern.

Usage

Lest(X, ..., correction)

Value

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

Essentially a data frame containing columns

r

the vector of values of the argument \(r\) at which the function \(L\) has been estimated

theo

the 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.

Arguments

X

The observed point pattern, from which an estimate of \(L(r)\) will be computed. An object of class "ppp", or data in any format acceptable to as.ppp().

correction,...

Other arguments passed to Kest to control the estimation procedure.

Variance approximations

If the argument var.approx=TRUE is given, the return value includes columns rip and ls containing approximations to the variance of \(\hat L(r)\) under CSR. These are obtained by the delta method from the variance approximations described in Kest.

Author

Adrian Baddeley Adrian.Baddeley@curtin.edu.au and Rolf Turner rolfturner@posteo.net

Details

This command computes an estimate of the \(L\)-function for the spatial point pattern X. The \(L\)-function is a transformation of Ripley's \(K\)-function, $$L(r) = \sqrt{\frac{K(r)}{\pi}}$$ where \(K(r)\) is the \(K\)-function.

See Kest for information about Ripley's \(K\)-function. The transformation to \(L\) was proposed by Besag (1977).

The command Lest first calls Kest to compute the estimate of the \(K\)-function, and then applies the square root transformation.

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

See Kest for the list of arguments.

References

Besag, J. (1977) Discussion of Dr Ripley's paper. Journal of the Royal Statistical Society, Series B, 39, 193--195.

See Also

Kest, pcf

Examples

Run this code
 L <- Lest(cells)
 plot(L, main="L function for cells")

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