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Compute the median absolute deviation, i.e., the (lo-/hi-) median of the absolute deviations from the median, and (by default) adjust by a factor for asymptotically normal consistency.
MAD(x, weights = NULL, center = Median, constant = 1.4826,
na.rm = FALSE, low = FALSE, high = FALSE)a numeric vector.
a numerical vector of weights the same length as x giving the weights to use for elements of x.
the centre given either as numeric value or as a function to be applied to x (defaults to the DescTools::Median(x)). Note in cases when weights are defined to provide a function that also support weights. If this is not possible fall back to a numeric value.
scale factor (default is 1.4826)
if TRUE then NA values are stripped
from x before computation takes place.
if TRUE, compute the ‘lo-median’, i.e., for even
sample size, do not average the two middle values, but take the
smaller one.
if TRUE, compute the ‘hi-median’, i.e., take the
larger of the two middle values for even sample size.
The actual value calculated is constant * cMedian(abs(x - center))
with the default value of center being median(x), and
cMedian being the usual, the ‘low’ or ‘high’ median, see
the arguments description for low and high above.
The default constant = 1.4826 (approximately
1/qnorm(3/4))
ensures consistency, i.e.,
If na.rm is TRUE then NA
values are stripped from x before computation takes place.
If this is not done then an NA value in
x will cause MAD to return NA.
# NOT RUN {
MAD(c(1:9))
print(MAD(c(1:9), constant = 1)) ==
MAD(c(1:8, 100), constant = 1) # = 2 ; TRUE
x <- c(1,2,3,5,7,8)
sort(abs(x - median(x)))
c(MAD(x, constant = 1),
MAD(x, constant = 1, low = TRUE),
MAD(x, constant = 1, high = TRUE))
# use weights
x <- sample(20, 30, replace = TRUE)
z <- as.numeric(names(w <- table(x)))
(m1 <- MAD(z, weights=w))
(m2 <- MAD(x))
stopifnot(identical(m1, m2))
# }
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