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I'm trying to use linear regression to figure out the best weighting for 3 models to predict an outcome. So there are 3 variables (x1, x2, x3) that are the predictions of the dependent variable, y. My question is, how do I run a regression with the constraint that the sum of the coefficients sum to 1. For example:

this is good:

y = .2(x1) + .4(x2) + .4(x3) 

since .2 + .4 + .4 = 1

this is no good:

y = 1.2(x1) + .4(x2) + .3(x3)

since 1.2 + .4 + .3 > 1

I'm looking to do this in R if possible. Thanks. Let me know if this needs to get moved to the stats area ('Cross-Validated').


The problem is to classify each row as 1 or 0. y is the actual values ( 0 or 1 ) from the training set, x1 is the predicted values from a kNN model, x2 is from a randomForest, x3 is from a gbm model. I'm trying to get the best weightings for each model, so each coefficient is <=1 and the sum of the coefficients == 1. Would look something like this:

y/Actual value       knnPred      RfPred     gbmPred
      0                .1111       .0546       .03325
      1                .7778       .6245       .60985
      0                .3354       .1293       .33255
      0                .2235       .9987       .10393
      1                .9888       .6753       .88933
     ...                 ...         ...         ...

The measure for success is AUC. So I'm trying to set the coefficients to maximize AUC while making sure they sum to 1.

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Try: stats.stackexchange.com/q/3143/229 –  James Dec 3 '11 at 17:23
Here's what you do: construct a small example, list the packages you are using and the code to create the output you are seeing and then someone will be in a position to offer advice. –  BondedDust Dec 3 '11 at 22:42
The mgcv package provides a function pcls() (penalized constrained least squares fitting), which allows specification of linear equality and inequality constraints for the parameters. You need to set up your models at a slightly lower level than, e.g. lm(), but the power it buys you is likely to be worth the extra trouble. –  Josh O'Brien Dec 5 '11 at 17:36

2 Answers 2

up vote 2 down vote accepted

No data to test on:

mod1 <- lm(y ~ 0+x1+x2+x3, data=dat)
mod2 <- lm(y/I(sum(coef(mod1))) ~ 0+x1+x2+x3, data=dat)

And now that I think about it some more, skip mod2, just:

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That is cool Dwin, but maybe would be necessary to restrict the coefficients to be between 0 and 1 also. I think. –  AndresT Dec 3 '11 at 19:07
Depends on what problem is being solved, and that was never stated. –  BondedDust Dec 3 '11 at 19:13
Sorry for the lack of pertinent details, I've made some updates above. –  screechOwl Dec 3 '11 at 19:45

There's very likely a better way that someone else will share, but you're looking for two parameters such that

b1 * x1 + b2 * x2 + (1 - b1 - b2) * x3

is close to y. To do that, I'd write an error function to minimize

minimizeMe <- function(b, x, y) {  ## Calculates MSE
    mean((b[1] * x[, 1] + b[2] * x[, 2] + (1 - sum(b)) * x[, 3] - y) ^ 2)

and throw it to optim

fit <- optim(par = c(.2, .4), fn = minimizeMe, x = cbind(x1, x2, x3), y = y)
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