qq.scam: QQ plots for scam model residuals
In scam: Shape Constrained Additive Models
qq.scam R Documentation
QQ plots for scam model residuals
Description
Takes a fitted scam object produced by scam() and produces
QQ plots of its residuals (conditional on the fitted model
coefficients and scale parameter). This is an adapted short version of qq.gam() of mgcv package of Simon N Wood.
Usage
qq.scam(object, rep=0, level=.9,s.rep=10,
type=c("deviance","pearson","response"),
pch=".", rl.col=3, rep.col="gray80", ...)
Arguments
object
a fitted scam object as produced by scam() (or a glm object).
rep
How many replicate datasets to generate to simulate quantiles
of the residual distribution. 0 results in an efficient
simulation free method for direct calculation, if this is possible for
the object family.
level
If simulation is used for the quantiles, then reference intervals can be provided for the QQ-plot, this specifies the level.
0 or less for no intervals, 1 or more to simply plot the QQ plot for each replicate generated.
s.rep
how many times to randomize uniform quantiles to data under direct computation.
type
what sort of residuals should be plotted? See
residuals.scam.
pch
plot character to use. 19 is good.
rl.col
color for the reference line on the plot.
rep.col
color for reference bands or replicate reference plots.
...
extra graphics parameters to pass to plotting functions.
Details
QQ-plots of the the model residuals can be produced in one of two ways. The cheapest method generates reference quantiles by
associating a quantile of the uniform distribution with each datum, and feeding these uniform quantiles into the quantile function associated with each datum. The resulting quantiles are then used in place of each datum to generate approximate quantiles of residuals.
The residual quantiles are averaged over s.rep randomizations of the uniform quantiles to data.
The second method is to use direct simulatation. For each replicate, data are simulated from the fitted model, and the corresponding residuals computed. This is repeated rep times.
Quantiles are readily obtained from the empirical distribution of residuals so obtained. From this method reference bands are also computable.
Even if rep is set to zero, the routine will attempt to simulate quantiles if no quantile function is available for the family. If no random deviate generating function family is available (e.g. for the quasi families), then a normal QQ-plot is produced. The routine conditions on the fitted model coefficents and the scale parameter estimate.
The plots are very similar to those proposed in Ben and Yohai (2004), but are substantially cheaper to produce (the interpretation of residuals for binary data in Ben and Yohai is not recommended).
Author(s)
Simon N. Wood simon.wood@r-project.org
Natalya Pya nat.pya@gmail.com adapted for usage with scam
References
N.H. Augustin, E-A Sauleaub, S.N. Wood (2012) On quantile quantile plots for generalized linear models
Computational Statistics & Data Analysis. 56(8), 2404-2409.
M.G. Ben and V.J. Yohai (2004) JCGS 13(1), 36-47.
See Also
scam
scam documentation built on June 22, 2024, 10:43 a.m.
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| qq.scam | R Documentation |
QQ plots for scam model residuals
Description
Takes a fitted scam object produced by scam() and produces
QQ plots of its residuals (conditional on the fitted model
coefficients and scale parameter). This is an adapted short version of qq.gam() of mgcv package of Simon N Wood.
Usage
qq.scam(object, rep=0, level=.9,s.rep=10,
type=c("deviance","pearson","response"),
pch=".", rl.col=3, rep.col="gray80", ...)
Arguments
object |
a fitted |
rep |
How many replicate datasets to generate to simulate quantiles
of the residual distribution. |
level |
If simulation is used for the quantiles, then reference intervals can be provided for the QQ-plot, this specifies the level. 0 or less for no intervals, 1 or more to simply plot the QQ plot for each replicate generated. |
s.rep |
how many times to randomize uniform quantiles to data under direct computation. |
type |
what sort of residuals should be plotted? See
|
pch |
plot character to use. 19 is good. |
rl.col |
color for the reference line on the plot. |
rep.col |
color for reference bands or replicate reference plots. |
... |
extra graphics parameters to pass to plotting functions. |
Details
QQ-plots of the the model residuals can be produced in one of two ways. The cheapest method generates reference quantiles by
associating a quantile of the uniform distribution with each datum, and feeding these uniform quantiles into the quantile function associated with each datum. The resulting quantiles are then used in place of each datum to generate approximate quantiles of residuals.
The residual quantiles are averaged over s.rep randomizations of the uniform quantiles to data.
The second method is to use direct simulatation. For each replicate, data are simulated from the fitted model, and the corresponding residuals computed. This is repeated rep times.
Quantiles are readily obtained from the empirical distribution of residuals so obtained. From this method reference bands are also computable.
Even if rep is set to zero, the routine will attempt to simulate quantiles if no quantile function is available for the family. If no random deviate generating function family is available (e.g. for the quasi families), then a normal QQ-plot is produced. The routine conditions on the fitted model coefficents and the scale parameter estimate.
The plots are very similar to those proposed in Ben and Yohai (2004), but are substantially cheaper to produce (the interpretation of residuals for binary data in Ben and Yohai is not recommended).
Author(s)
Simon N. Wood simon.wood@r-project.org
Natalya Pya nat.pya@gmail.com adapted for usage with scam
References
N.H. Augustin, E-A Sauleaub, S.N. Wood (2012) On quantile quantile plots for generalized linear models Computational Statistics & Data Analysis. 56(8), 2404-2409.
M.G. Ben and V.J. Yohai (2004) JCGS 13(1), 36-47.
See Also
scam
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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