Marginal Effects for Several Categorical Response Models
Marginal effects for the multinomial logit model and cumulative logit/probit/... models and continuation ratio models and stopping ratio models and adjacent categories models: the derivative of the fitted probabilities with respect to each explanatory variable.
margeff(object, subset = NULL, ...)
object |
A |
subset |
Numerical or logical vector, denoting the required observation(s). Recycling is used if possible. The default means all observations. |
... |
further arguments passed into the other methods functions. |
Computes the derivative of the fitted probabilities of the categorical response model with respect to each explanatory variable. Formerly one big function, this function now uses S4 dispatch to break up the computations.
The function margeff() is not generic. However, it
calls the function margeffS4VGAM() which is.
This is based on the class of the VGAMff argument, and
it uses the S4 function setMethod to
correctly dispatch to the required methods function.
The inheritance is given by the vfamily slot of the
VGAM family function.
A p by M+1 by n array, where p is the number of explanatory variables and the (hopefully) nominal response has M+1 levels, and there are n observations.
In general, if
is.numeric(subset)
and
length(subset) == 1 then a
p by M+1 matrix is returned.
Care is needed in interpretation, e.g., the change is not universally accurate for a unit change in each explanatory variable because eventually the ‘new’ probabilities may become negative or greater than unity. Also, the ‘new’ probabilities will not sum to one.
This function is not applicable for models with
data-dependent terms such as bs and
poly.
Also the function should not be applied to models with any terms that
have generated more than one column of the LM model matrix,
such as bs and poly.
For such try using numerical methods such as finite-differences.
The formula in object should comprise of simple terms
of the form ~ x2 + x3 + x4, etc.
For multinomial
this function should handle any value of refLevel and also
any constraint matrices.
However, it does not currently handle
the xij or form2 arguments,
nor vgam objects.
T. W. Yee, with some help and motivation from Stasha Rmandic.
multinomial,
cumulative,
propodds,
acat,
cratio,
sratio,
vglm.
# Not a good example for multinomial() because the response is ordinal!!
ii <- 3; hh <- 1/100
pneumo <- transform(pneumo, let = log(exposure.time))
fit <- vglm(cbind(normal, mild, severe) ~ let, multinomial, data = pneumo)
fit <- vglm(cbind(normal, mild, severe) ~ let,
cumulative(reverse = TRUE, parallel = TRUE),
data = pneumo)
fitted(fit)[ii, ]
mynewdata <- with(pneumo, data.frame(let = let[ii] + hh))
(newp <- predict(fit, newdata = mynewdata, type = "response"))
# Compare the difference. Should be the same as hh --> 0.
round(digits = 3, (newp-fitted(fit)[ii, ])/hh) # Finite-difference approxn
round(digits = 3, margeff(fit, subset = ii)["let",])
# Other examples
round(digits = 3, margeff(fit))
round(digits = 3, margeff(fit, subset = 2)["let",])
round(digits = 3, margeff(fit, subset = c(FALSE, TRUE))["let",,]) # recycling
round(digits = 3, margeff(fit, subset = c(2, 4, 6, 8))["let",,])Please choose more modern alternatives, such as Google Chrome or Mozilla Firefox.