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I am working on time series, and want to check all the lagged differences for significance(and essentially doing a dickey-fuller test by hand) but that's not important. I can do it, but it's really mechanical, and there must be a way to do this more elegantly. Or at least more efficiently. Any ideas?

y <- log.real.gdp.ts

delta.y.t <- diff(y,differences=1)
lag.y <- lag(y, -1)
L1Dy <- lag(delta.y.t, k=-1)
L2Dy <- lag(delta.y.t, k=-2)    
L3Dy <- lag(delta.y.t, k=-3)    
L4Dy <- lag(delta.y.t, k=-4)    
L5Dy <- lag(delta.y.t, k=-5)    
L6Dy <- lag(delta.y.t, k=-6)    
L7Dy <- lag(delta.y.t, k=-7)    
L8Dy <- lag(delta.y.t, k=-8)    
L9Dy <- lag(delta.y.t, k=-9)    
L10Dy <- lag(delta.y.t, k=-10)  
L11Dy <- lag(delta.y.t, k=-11)  
L12Dy <- lag(delta.y.t, k=-12)  

d = ts.union(delta.y.t, lag.y, L1Dy, L2Dy, L3Dy, L4Dy, L5Dy, L6Dy, L7Dy, L8Dy, L9Dy, L10Dy, L11Dy, L12Dy)               ## takes care of NA's

lm.model.III <- lm(delta.y.t~ lag.y + time(lag.y) + L1Dy + L2Dy + L3Dy + L4Dy + L5Dy + L6Dy + L7Dy + L8Dy + L9Dy + L10Dy + L11Dy + L12Dy, data=d)

I'd really like some kind of loop where I can generate 1:n lagged differences, and then some way to insert all n into my linear model, like

 lm.model.III <- lm(delta.y.t ~ lag.y + time(lag.y) + lagged.diffs.mts)
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2 Answers 2

how about

require(zoo)

delta.y.t <- diff(y,differences=1)
lag.y <- lag(y, -1)
L1Dy <- lag(delta.y.t, -(0:12), na.pad=T)

#for any regression you can then access the number of lags you want:
# 0 lag and na.pad=T are crucial

lm(lag.y ~ L1Dy[,1:5])

Hope this helps

-Chris

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Hmm, this is throwing an error for me with y <- 1:20. –  Charlie Nov 13 '12 at 0:14

The package dynlm adds handling of time series operators to R formulas:

The interface and internals of dynlm are very similar to lm, but currently dynlm offers three advantages over the direct use of lm: 1. extended formula processing, 2. preservation of time series attributes, 3. instrumental variables regression (via two-stage least squares). For specifying the formula of the model to be fitted, there are additional functions available which allow for convenient specification of dynamics (via d() and L()) or linear/cyclical patterns (via trend(), season(), and harmon()). All new formula functions require that their arguments are time series objects (i.e., "ts" or "zoo").

Here is an example:

library(foreign)
library(zoo)
library(dynlm)

dfKlein = read.dta('http://www.stata-press.com/data/r12/klein.dta')
summary(dfKlein)

zooKlein = as.zoo(dfKlein, order.by = dfKlein$year)
lmKlein = dynlm(consump ~ L(profits, 1) + profits + wagetot, 
                data = zooKlein)
summary(lmKlein)

Note, in particular, that it allows you to specify a vector of lags in the formula object, such as y ~ L(y, 1:4).

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