Linhom: Inhomogeneous L-function
In spatstat.explore: Exploratory Data Analysis for the 'spatstat' Family
Linhom R Documentation
Inhomogeneous L-function
Description
Calculates an estimate of the inhomogeneous version of
the L-function (Besag's transformation of Ripley's K-function)
for a spatial point pattern.
Usage
Linhom(X, ..., correction)
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 Kinhom
to control the estimation procedure.
Details
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
(proposed by Besag) 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. It was proposed by
Baddeley, \Moller and Waagepetersen (2000).
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.
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.
Author(s)
\adrian
and \rolf
References
Baddeley, A., \Moller, J. and Waagepetersen, R. (2000)
Non- and semiparametric estimation of interaction in
inhomogeneous point patterns.
Statistica Neerlandica 54, 329–350.
See Also
Kest,
Lest,
Kinhom,
pcf
Examples
X <- japanesepines
L <- Linhom(X, sigma=0.1)
plot(L, main="Inhomogeneous L function for Japanese Pines")
spatstat.explore documentation built on Oct. 22, 2024, 9:07 a.m.
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| Linhom | R Documentation |
Inhomogeneous L-function
Description
Calculates an estimate of the inhomogeneous version of
the L-function (Besag's transformation of Ripley's K-function)
for a spatial point pattern.
Usage
Linhom(X, ..., correction)
Arguments
X |
The observed point pattern,
from which an estimate of |
correction, ... |
Other arguments passed to |
Details
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
(proposed by Besag) 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. It was proposed by
Baddeley, \Moller and Waagepetersen (2000).
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.
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 |
theo |
the theoretical value |
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.
Author(s)
\adrianand \rolf
References
Baddeley, A., \Moller, J. and Waagepetersen, R. (2000) Non- and semiparametric estimation of interaction in inhomogeneous point patterns. Statistica Neerlandica 54, 329–350.
See Also
Kest,
Lest,
Kinhom,
pcf
Examples
X <- japanesepines
L <- Linhom(X, sigma=0.1)
plot(L, main="Inhomogeneous L function for Japanese Pines")
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