Fit a point process model to a point pattern dataset on a linear network
lppm(X, ...)# S3 method for formula
lppm(X, interaction=NULL, ..., data=NULL)
# S3 method for lpp
lppm(X, ..., eps=NULL, nd=1000, random=FALSE)
An object of class "lppm"
representing the fitted model.
There are methods for print
, predict
,
coef
and similar functions.
Either an object of class "lpp"
specifying a point pattern
on a linear network, or a formula
specifying the
point process model.
Arguments passed to ppm
.
An object of class "interact"
describing the point process interaction
structure, or NULL
indicating that a Poisson process (stationary
or nonstationary) should be fitted.
Optional. The values of spatial covariates (other than the Cartesian coordinates) required by the model. A list whose entries are images, functions, windows, tessellations or single numbers.
Optional. Spacing between dummy points along each segment of the network.
Optional. Total number of dummy points placed on
the network. Ignored if eps
is given.
Logical value indicating whether the grid of dummy points should be placed at a randomised starting position.
Adrian Baddeley Adrian.Baddeley@curtin.edu.au and Greg McSwiggan.
This function fits a point process model to data that specify
a point pattern on a linear network. It is a counterpart of
the model-fitting function ppm
designed
to work with objects of class "lpp"
instead of "ppp"
.
The function lppm
is generic, with methods for
the classes formula
and lppp
.
In lppm.lpp
the first argument X
should be an object of class "lpp"
(created by the command lpp
) specifying a point pattern
on a linear network.
In lppm.formula
,
the first argument is a formula
in the R language
describing the spatial trend model to be fitted. It has the general form
pattern ~ trend
where the left hand side pattern
is usually
the name of a point pattern on a linear network
(object of class "lpp"
)
to which the model should be fitted, or an expression which evaluates
to such a point pattern;
and the right hand side trend
is an expression specifying the
spatial trend of the model.
Other arguments ...
are passed from lppm.formula
to lppm.lpp
and from lppm.lpp
to ppm
.
Ang, Q.W. (2010) Statistical methodology for events on a network. Master's thesis, School of Mathematics and Statistics, University of Western Australia.
Ang, Q.W., Baddeley, A. and Nair, G. (2012) Geometrically corrected second-order analysis of events on a linear network, with applications to ecology and criminology. Scandinavian Journal of Statistics 39, 591--617.
McSwiggan, G., Nair, M.G. and Baddeley, A. (2012) Fitting Poisson point process models to events on a linear network. Manuscript in preparation.
methods.lppm
,
predict.lppm
,
ppm
,
lpp
.
X <- runiflpp(15, simplenet)
lppm(X ~1)
lppm(X ~x)
marks(X) <- factor(rep(letters[1:3], 5))
lppm(X ~ marks)
lppm(X ~ marks * x)
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