leverage.slrm | R Documentation |
For a fitted spatial logistic regression model, these functions compute diagnostics of leverage and influence.
## S3 method for class 'slrm'
leverage(model, ...)
## S3 method for class 'slrm'
influence(model, ...)
## S3 method for class 'slrm'
dfbetas(model, ...)
## S3 method for class 'slrm'
dffit(object, ...)
model , object |
A fitted spatial logistic regression model
(object of class |
... |
Arguments passed to methods. |
These functions are methods for the generics
leverage
, influence
,
dfbetas
and dffit
for the class "slrm"
.
These functions adapt the standard diagnostics for logistic regression
(see influence.measures
) to a
fitted spatial logistic regression model (object of class
"slrm"
). This adaptation was described by Baddeley, Chang
and Song (2013).
leverage.slrm
computes the leverage value (diagonal of the hat
matrix) for the covariate data in each pixel.
The result is a pixel image.
influence.slrm
computes the likelihood influence
for the data (covariates and presence/absence of points) in each pixel.
The result is a pixel image.
dfbetas.slrm
computes the parameter influence
for the data (covariates and presence/absence of points) in each pixel.
The result is a list of pixel images, one image for each of the
model coefficients in coef(model)
. The list can be plotted
immediately.
dffit.slrm
computes the total influence
for the data (covariates and presence/absence of points) in each pixel.
The result is a pixel image.
A pixel image, or a list of pixel images.
.
Baddeley, A., Chang, Y.M. and Song, Y. (2013) Leverage and influence diagnostics for spatial point process models. Scandinavian Journal of Statistics 40, 86–104.
influence.measures
.
leverage.ppm
,
influence.ppm
,
dfbetas.ppm
,
dffit.ppm
H <- unmark(humberside)
fit <- slrm(H ~ x+y, dimyx=32)
plot(leverage(fit))
plot(influence(fit))
plot(dfbetas(fit))
plot(dffit(fit))
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