BoxCoxTrans: Box-Cox and Exponential Transformations

Description

These classes can be used to estimate transformations and apply them to existing and future data

Usage

BoxCoxTrans(y, ...)
# S3 method for default
BoxCoxTrans(
  y,
  x = rep(1, length(y)),
  fudge = 0.2,
  numUnique = 3,
  na.rm = FALSE,
  ...
)
# S3 method for BoxCoxTrans
print(x, newdata, digits = 3, ...)
# S3 method for BoxCoxTrans
predict(object, newdata, ...)

Value

Both functions returns a list of class of either BoxCoxTrans or expoTrans with elements

lambda: estimated transformation value
fudge: value of fudge
n: number of data points used to estimate lambda
summary: the results of summary(y)
ratio: max(y)/min(y)
skewness: sample skewness statistic

BoxCoxTrans also returns:

fudge: value of fudge

The predict functions returns numeric vectors of transformed values

Arguments

y: a numeric vector of data to be transformed. For BoxCoxTrans, the data must be strictly positive.
...: for BoxCoxTrans: options to pass to boxcox. plotit should not be passed through. For predict.BoxCoxTrans, additional arguments are ignored.
x: an optional dependent variable to be used in a linear model.
fudge: a tolerance value: lambda values within +/-fudge will be coerced to 0 and within 1+/-fudge will be coerced to 1.
numUnique: how many unique values should y have to estimate the transformation?
na.rm: a logical value indicating whether NA values should be stripped from y and x before the computation proceeds.
newdata: a numeric vector of values to transform.
digits: minimal number of significant digits.
object: an object of class BoxCoxTrans or expoTrans.

Author

Max Author

Details

BoxCoxTrans function is basically a wrapper for the boxcox function in the MASS library. It can be used to estimate the transformation and apply it to new data.

expoTrans estimates the exponential transformation of Manly (1976) but assumes a common mean for the data. The transformation parameter is estimated by directly maximizing the likelihood.

If any(y <= 0) or if length(unique(y)) < numUnique, lambda is not estimated and no transformation is applied.

References

Box, G. E. P. and Cox, D. R. (1964) An analysis of transformations (with discussion). Journal of the Royal Statistical Society B, 26, 211-252. Manly, B. L. (1976) Exponential data transformations. The Statistician, 25, 37 - 42.

Examples

Run this code

data(BloodBrain)

ratio <- exp(logBBB)
bc <- BoxCoxTrans(ratio)
bc

predict(bc, ratio[1:5])

ratio[5] <- NA
bc2 <- BoxCoxTrans(ratio, bbbDescr$tpsa, na.rm = TRUE)
bc2

manly <- expoTrans(ratio)
manly

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