I am trying to manually calculate the fitted values of a fixed effects model (with both individual and time effects) using the
plm package. This is more of an exercise to confirm I understand the mechanics of the model and the package, I know I can get the fitted values themselves from the
plm object, from the two related questions (here and here).
plm vignette (p.2), the underlying model is:
y_it = alpha + beta_transposed * x_it + (mu_i + lambda_t + epsilon_it)
where mu_i is the individual component of the error term (a.k.a. "individual effect"), and lambda_t is the "time effect".
The fixed effects can be extracted by using
fixef() and I thought I could use them (together with the independent variables) to calculate the fitted values for the model, using (with two independent variables) in this way:
fit_it = alpha + beta_1 * x1 + beta_2 * x2 + mu_i + lambda_t
This is where I fail -- the values I get are nowhere near the fitted values (which I get as the difference between the actual values and the residuals in the model object). For one, I do not see
alpha anywhere. I tried playing with the fixed effects being shown as differences from the first, from the mean, etc., with no success.
What I am missing? It could well be a misunderstanding of the model, or an error in the code, I am afraid... Thanks in advance.
PS: One of the related questions hints that
pmodel.response() should be related to my issue (and the reason there is no
plm.fit function), but its help page does not help me understand what this function actually does, and I cannot find any examples how to interpret the result it produces.
Sample code of what I did:
library(data.table); library(plm) set.seed(100) DT <- data.table(CJ(id=c("a","b","c","d"), time=c(1:10))) DT[, x1:=rnorm(40)] DT[, x2:=rnorm(40)] DT[, y:=x1 + 2*x2 + rnorm(40)/10] DT <- DT[!(id=="a" & time==4)] # just to make it an unbalanced panel setkey(DT, id, time) summary(plmFEit <- plm(data=DT, id=c("id","time"), formula=y ~ x1 + x2, model="within", effect="twoways")) # Extract the fitted values from the plm object FV <- data.table(plmFEit$model, residuals=as.numeric(plmFEit$residuals)) FV[, y := as.numeric(y)] FV[, x1 := as.numeric(x1)] FV[, x2 := as.numeric(x2)] DT <- merge(x=DT, y=FV, by=c("y","x1","x2"), all=TRUE) DT[, fitted.plm := as.numeric(y) - as.numeric(residuals)] FEI <- data.table(as.matrix(fixef(object=plmFEit, effect="individual", type="level")), keep.rownames=TRUE) # as.matrix needed to preserve the names? setnames(FEI, c("id","fei")) setkey(FEI, id) setkey(DT, id) DT <- DT[FEI] # merge the fei into the data, each id gets a single number for every row FET <- data.table(as.matrix(fixef(object=plmFEit, effect="time", type="level")), keep.rownames=TRUE) # as.matrix needed to preserve the names? setnames(FET, c("time","fet")) FET[, time := as.integer(time)] # fixef returns time as character setkey(FET, time) setkey(DT, time) DT <- DT[FET] # merge the fet into the data, each time gets a single number for every row # calculate the fitted values (called calc to distinguish from those from plm) DT[, calc := as.numeric(coef(plmFEit) * x1 + coef(plmFEit)*x2 + fei + fet)] DT[, diff := as.numeric(fitted.plm - calc)]
My session is as follows:
R version 2.15.3 (2013-03-01) Platform: x86_64-w64-mingw32/x64 (64-bit) locale:  LC_COLLATE=English_United States.1252 LC_CTYPE=English_United States.1252 LC_MONETARY=English_United States.1252 LC_NUMERIC=C  LC_TIME=English_United States.1252 attached base packages:  grid stats graphics grDevices utils datasets methods base other attached packages:  plm_1.3-1 sandwich_2.2-10 zoo_1.7-10 MASS_7.3-23 nlme_3.1-108 bdsmatrix_1.3-1 ggthemes_1.3.3 gridExtra_0.9.1  scales_0.2.3 ggplot2_0.9.3.1 data.table_1.8.10 Formula_1.1-1 Revobase_6.2.0 RevoMods_6.2.0 RevoScaleR_6.2.0 loaded via a namespace (and not attached):  codetools_0.2-8 colorspace_1.2-4 dichromat_2.0-0 digest_0.6.3 foreach_1.4.1 gtable_0.1.2 iterators_1.0.6 labeling_0.2  lattice_0.20-23 munsell_0.4.2 plyr_1.8 proto_0.3-10 RColorBrewer_1.0-5 reshape2_1.2.2 stringr_0.6.2 tools_2.15.3