\name{din32645}
\docType{data}
\alias{din32645}
\title{Calibration data from DIN 32645}
\description{
  Sample dataset to test the package.
}
\usage{data(din32645)}
\format{
  A dataframe containing 10 rows of x and y values.
}
\examples{
data(din32645)
m <- lm(y ~ x, data = din32645)
calplot(m)

## Prediction of x with confidence interval
(prediction <- inverse.predict(m, 3500, alpha = 0.01))

# This should give 0.07434 according to test data from Dintest, which 
# was collected from Procontrol 3.1 (isomehr GmbH) in this case
round(prediction$Confidence,5)

## Critical value:
(crit <- lod(m, alpha = 0.01, beta = 0.5))

# According to DIN 32645, we should get 0.07 for the critical value
# (decision limit, "Nachweisgrenze")
round(crit$x, 2)
# and according to Dintest test data, we should get 0.0698 from
round(crit$x, 4)

## Limit of detection (smallest detectable value given alpha and beta)
# In German, the smallest detectable value is the "Erfassungsgrenze", and we
# should get 0.14 according to DIN, which we achieve by using the method 
# described in it:
lod.din <- lod(m, alpha = 0.01, beta = 0.01, method = "din")
round(lod.din$x, 2)

## Limit of quantification
# This accords to the test data coming with the test data from Dintest again, 
# except for the last digits of the value cited for Procontrol 3.1 (0.2121)
(loq <- loq(m, alpha = 0.01))
round(loq$x,4)

# A similar value is obtained using the approximation 
# LQ = 3.04 * LC (Currie 1999, p. 120)
3.04 * lod(m,alpha = 0.01, beta = 0.5)$x
}
\references{
  DIN 32645 (equivalent to ISO 11843), Beuth Verlag, Berlin, 1994

  Dintest. Plugin for MS Excel for evaluations of calibration data. Written
  by Georg Schmitt, University of Heidelberg. 
  \url{http://www.rzuser.uni-heidelberg.de/~df6/download/dintest.htm}

  Currie, L. A. (1997) Nomenclature in evaluation of analytical methods including
  detection and quantification capabilities (IUPAC Recommendations 1995). 
  Analytica Chimica Acta 391, 105 - 126.
}
\keyword{datasets}