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I'm measuring many different chemical compounds, each of which has a different calibration curve, using a single instrument. I'd like to apply the correct calibration curve, based on the name of the compound, to the raw data to the raw data from the instrument. So, I start with a multiple calibration curves and a data frame of raw data:

#generate the calibration curves
x <- 1:10
calib.data.1 <- x+runif(10)
lm.1 <- lm(calib.data.1~x)
calib.data.2 <- 2*x+runif(10)
lm.2 <- lm(calib.data.2~x)

The raw data look like this:

compound <- factor(c("cpd1", "cpd2"))
values <- runif(2)
raw <- data.frame(compound, values)

It seems like the elegant way to choose the correct calibration curve would involve ddply or similar. However I can't figure out how to do this without writing a function along these lines:

choose.calib <- function(raw, cpd)
    if(cpd=="cpd1"){
        calib=coef(lm.1)[1]+val*coef(lm.2)[2]
    }else{
    if(cpd=="cpd2"){
        calib=coef(lm.2)[1]+val*coef(lm.2)[2]
    }else{
        warning("no calib curve for compound")}}
    }

Then I would do something like

cal<-ddply(raw, .(compound), choose.calib)

(which doesn't work anyway due to my failure to understand if-else; but I think I can work that out on my own)

Is there a more vectorized way to do this?

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1  
I think the raw data should be raw <- data.frame(compound, values), no? –  JD Long Nov 2 '11 at 14:25
    
Yep, thanks. Edited accordingly. –  Drew Steen Nov 3 '11 at 8:26
    
Shouldn't the first calib output use coef(lm.1)[2] rather than coef(lm.2)[2]? –  Iterator Nov 3 '11 at 17:20

2 Answers 2

up vote 1 down vote accepted

Alternatively, you can create a list object that has your models, indexed by their compound type. E.g. something like this should work:

 calibList <- list()
 calibList$cpd1 <- lm.1
 calibList$cpd2 <- lm.2

 choose.calib <- function(cpd, calibList){ return(calibList[[cpd]]) }
 predict.calib <- function(raw, cpd, calibList){
   predict(choose.calib(cpd, calibList), raw)
 }

 ddply(raw, predict.calib, cpd, calibList)

It's good to know the predict.lm() function, so that you needn't extract coefficients to "manually" do the prediction.

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One way that just jumps out at me is to create a coefficients data.frame containing a few fields, something like [cpd, intercept, coef]

You could then "join" your coefficients data.frame to your starting data.frame using merge() then you'd have your calibration coefficients in the same data frame.

Here's a simple example using your data:

x <- 1:10
calib.data.1 <- x+runif(10)
lm.1 <- lm(calib.data.1~x)
lm1coef <- data.frame(compound="cpd1", t(lm.1$coefficients))
names(lm1coef) <- c("compound","intercept","b1")

calib.data.2 <- 2*x+runif(10)
lm.2 <- lm(calib.data.2~x)
lm2coef <- data.frame(compound="cpd2",t(lm.2$coefficients))
names(lm2coef) <- c("compound","intercept","b1")

coefs <- rbind(lm1coef, lm2coef)

compound <- factor(c("cpd1", "cpd2"))
values <- runif(2)
raw <- data.frame(compound, values)

raw2 <- merge(raw, coefs)

Clearly you could make the bit that extracts the coefficients into a function. But this gives you the gist.

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