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I am fitting a simple regression in R on gas usage per capita. The regression formulas looks like:

gas_b <- lm(log(gasq_pop) ~ log(gasp) + log(pcincome) + log(pn) +
            log(pd) + log(ps) + log(years), 
            data=gas)
summary(gas_b)

I want to include a linear constraint that the beta coefficients of log(pn)+log(pd)+log(ps)=1 (sum to one). Is there a simple way of implementing this (possibly in the lm function) in R without having to use constrOptim() function?

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What are pn, pd and ps? Are they dummy variables? –  hadley Oct 11 '09 at 21:21
    
No they are #PD = Price index for durables component of total consumption #PN = Price index for nondurables component of total consumption #PS = Price indes for services component of total consumption Microeconomic theory might predict that the three elasticities on nondurables price, logPN, durables price, logPD and services price, logPS, should sum to one. –  user188077 Oct 11 '09 at 22:43

1 Answer 1

Modify your regression as follows:

gas_b <- lm(log(gasq_pop) - log(ps) ~ log(gasp) + log(pcincome) +
  I(log(pn)-log(ps)) + I(log(pd)-log(ps)) + log(years), data=gas) 
summary(gas_b)

If b=coef(gas_b), then the relevant coefficients are

log(pn): b[4]
log(pd): b[5]
log(ps): 1 - b[4] - b[5]
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Thanks Rob, ran that and it worked like a charm. However, I couldn't find in the R manual, what the "I" in front of I(log(pn)-log(ps)) and I(log(pd)-log(ps)) stands for? Thanks, Thomas –  user188077 Oct 12 '09 at 0:38
    
I stands for identity. see help(I). –  Rob Hyndman Oct 12 '09 at 3:40

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