| filter {stats} | R Documentation |
Applies linear filtering to a univariate time series or to each series separately of a multivariate time series.
filter(x, filter, method = c("convolution", "recursive"),
sides = 2, circular = FALSE, init)
x |
a univariate or multivariate time series. |
filter |
a vector of filter coefficients in reverse time order (as for AR or MA coefficients). |
method |
Either |
sides |
for convolution filters only. If |
circular |
for convolution filters only. If |
init |
for recursive filters only. Specifies the initial values of the time series just prior to the start value, in reverse time order. The default is a set of zeros. |
Missing values are allowed in x but not in filter
(where they would lead to missing values everywhere in the output).
Note that there is an implied coefficient 1 at lag 0 in the recursive filter, which gives
y[i] = x[i] + f[1]*y[i-1] + … + f[p]*y[i-p]
No check is made to see if recursive filter is invertible: the output may diverge if it is not.
The convolution filter is
y[i] = f[1]*x[i+o] + … + f[p]*x[i+o-(p-1)]
where o is the offset: see sides for how it is determined.
A time series object.
convolve(, type="filter") uses the FFT for computations
and so may be faster for long filters on univariate series,
but it does not return a time series (and so the time alignment is
unclear), nor does it handle missing values. filter is
faster for a filter of length 100 on a series of length 1000,
for example.
x <- 1:100 filter(x, rep(1, 3)) filter(x, rep(1, 3), sides = 1) filter(x, rep(1, 3), sides = 1, circular = TRUE) filter(presidents, rep(1,3))