# model.images

##### Compute Images of Constructed Covariates

For a point process model fitted to spatial point pattern data, this function computes pixel images of the covariates in the design matrix.

##### Usage

`model.images(object, ...)` # S3 method for ppm
model.images(object, W = as.owin(object), ...)

# S3 method for kppm
model.images(object, W = as.owin(object), ...)

# S3 method for dppm
model.images(object, W = as.owin(object), ...)

# S3 method for lppm
model.images(object, L = as.linnet(object), ...)

# S3 method for slrm
model.images(object, ...)

##### Arguments

- object
The fitted point process model. An object of class

`"ppm"`

or`"kppm"`

or`"lppm"`

or`"slrm"`

or`"dppm"`

.- W
A window (object of class

`"owin"`

) in which the images should be computed. Defaults to the window in which the model was fitted.- L
A linear network (object of class

`"linnet"`

) in which the images should be computed. Defaults to the network in which the model was fitted.- …
Other arguments (such as

`na.action`

) passed to`model.matrix.lm`

.

##### Details

This command is similar to `model.matrix.ppm`

except
that it computes pixel images of the covariates,
instead of computing the covariate values at certain points only.

The `object`

must be a fitted spatial point process model
object of class `"ppm"`

(produced by the model-fitting
function `ppm`

) or class `"kppm"`

(produced by the
fitting function `kppm`

)
or class `"dppm"`

(produced by the
fitting function `dppm`

) or class `"lppm"`

(produced
by `lppm`

) or class `"slrm"`

(produced by
`slrm`

).

The spatial covariates required by the model-fitting procedure
are computed at every pixel location in the window `W`

.
For `lppm`

objects, the covariates are computed at every
location on the network `L`

. For `slrm`

objects, the
covariates are computed on the pixels that were used to fit the
model.

Note that the spatial covariates computed here are not the original covariates that were supplied when fitting the model. Rather, they are the covariates that actually appear in the loglinear representation of the (conditional) intensity and in the columns of the design matrix. For example, they might include dummy or indicator variables for different levels of a factor, depending on the contrasts that are in force.

The pixel resolution is determined by `W`

if `W`

is a mask (that is `W$type = "mask"`

).
Otherwise, the pixel resolution is determined by
`spatstat.options`

.

The format of the result depends on whether the original point pattern data were marked or unmarked.

If the original dataset was unmarked, the result is a named list of pixel images (objects of class

`"im"`

) containing the values of the spatial covariates. The names of the list elements are the names of the covariates determined by`model.matrix.lm`

. The result is also of class`"solist"`

so that it can be plotted immediately.If the original dataset was a multitype point pattern, the result is a

`hyperframe`

with one column for each possible type of points. Each column is a named list of pixel images (objects of class`"im"`

) containing the values of the spatial covariates. The row names of the hyperframe are the names of the covariates determined by`model.matrix.lm`

.

##### Value

A list (of class `"solist"`

) or
array (of class `"hyperframe"`

) containing
pixel images (objects of class `"im"`

).
For `model.images.lppm`

, the images are also of class `"linim"`

.

##### See Also

`model.matrix.ppm`

,
`model.matrix`

,
`ppm`

,
`ppm.object`

,
`lppm`

,
`dppm`

,
`kppm`

,
`slrm`

,
`im`

,
`im.object`

,
`plot.solist`

,
`spatstat.options`

##### Examples

```
# NOT RUN {
fit <- ppm(cells ~ x)
model.images(fit)
B <- owin(c(0.2, 0.4), c(0.3, 0.8))
model.images(fit, B)
fit2 <- ppm(cells ~ cut(x,3))
model.images(fit2)
fit3 <- slrm(japanesepines ~ x)
model.images(fit3)
fit4 <- ppm(amacrine ~ marks + x)
model.images(fit4)
# }
```

*Documentation reproduced from package spatstat, version 1.49-0, License: GPL (>= 2)*