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qqgig produces a generalized inverse Gaussian QQ plot of the values in y.
qqgig
y
ppgig produces a generalized inverse Gaussian PP (percent-percent) or probability plot of the values in y.
ppgig
If line = TRUE, a line with zero intercept and unit slope is added to the plot.
line = TRUE
Graphical parameters may be given as arguments to qqgig, and ppgig.
qqgig(y, Theta, main = "GIG Q-Q Plot", xlab = "Theoretical Quantiles", ylab = "Sample Quantiles", plot.it = TRUE, line = TRUE, ...)ppgig(y, Theta, main = "GIG P-P Plot", xlab = "Uniform Quantiles", ylab = "Probability-integral-transformed Data", plot.it = TRUE, line = TRUE, ...)
ppgig(y, Theta, main = "GIG P-P Plot", xlab = "Uniform Quantiles", ylab = "Probability-integral-transformed Data", plot.it = TRUE, line = TRUE, ...)
For qqgig and ppgig, a list with components:
The x coordinates of the points that are be plotted.
The y coordinates of the points that are be plotted.
The data sample.
Parameters of the generalized inverse Gaussian distribution.
Plot labels.
Logical. TRUE denotes the results should be plotted.
Logical. If TRUE, a line with zero intercept and unit slope is added to the plot.
Further graphical parameters.
Wilk, M. B. and Gnanadesikan, R. (1968) Probability plotting methods for the analysis of data. Biometrika. 55, 1--17.
ppoints, dgig.
ppoints
dgig
par(mfrow=c(1,2)) y <- rgig(1000,c(1,2,3)) qqgig(y,c(1,2,3),line=FALSE) abline(0,1,col=2) ppgig(y,c(1,2,3))
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