windowing: Windowing functions
In signal: Signal Processing
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
A variety of generally Matlab/Octave compatible filter generation
functions, including Bartlett, Blackman, Hamming, Hanning, and
triangular.
Usage
1
2
3
4
5
6
7
8
Arguments
n
length of the filter; number of coefficients to generate.
w
the reciprocal of the standard deviation for
gausswin. Use larger a for a narrower window.
sym
'symmetric' for a symmetric window, 'periodic' for a
periodic window.
Details
triang, unlike the bartlett window, does not go to zero at the
edges of the window. For odd n, triang(n) is equal to
bartlett(n+2) except for the zeros at the edges of the window.
A main use of flattopwin is for calibration, due
to its negligible amplitude errors. This window has low pass-band ripple, but high bandwidth.
Value
Filter coefficients.
Author(s)
Original Octave versions by Paul Kienzle (boxcar,
gausswin, triang) and Andreas Weingessel
(bartlett, blackman, hamming, hanning).
Conversion to R by Tom Short.
References
Oppenheim, A.V., and Schafer, R.W., Discrete-Time Signal Processing, Upper Saddle River, NJ: Prentice-Hall, 1999.
Gade, S., Herlufsen, H. (1987) “Use of weighting functions in DFT/FFT
analysis (Part I)”, Bruel & Kjaer Technical Review No. 3.
https://en.wikipedia.org/wiki/Windowed_frame
Octave Forge https://octave.sourceforge.io/
See Also
filter, fftfilt,
filtfilt, fir1
Examples
1
2
3
4
5
6
7
8
9
10
11
n <- 51
op <- par(mfrow = c(3,3))
plot(bartlett(n), type = "l", ylim = c(0,1))
plot(blackman(n), type = "l", ylim = c(0,1))
plot(boxcar(n), type = "l", ylim = c(0,1))
plot(flattopwin(n), type = "l", ylim = c(0,1))
plot(gausswin(n, 5), type = "l", ylim = c(0,1))
plot(hanning(n), type = "l", ylim = c(0,1))
plot(hamming(n), type = "l", ylim = c(0,1))
plot(triang(n), type = "l", ylim = c(0,1))
par(op)
Example output
signal documentation built on May 25, 2021, 3 p.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
A variety of generally Matlab/Octave compatible filter generation functions, including Bartlett, Blackman, Hamming, Hanning, and triangular.
Usage
1 2 3 4 5 6 7 8 |
Arguments
n |
length of the filter; number of coefficients to generate. |
w |
the reciprocal of the standard deviation for
|
sym |
|
Details
triang, unlike the bartlett window, does not go to zero at the
edges of the window. For odd n, triang(n) is equal to
bartlett(n+2) except for the zeros at the edges of the window.
A main use of flattopwin is for calibration, due
to its negligible amplitude errors. This window has low pass-band ripple, but high bandwidth.
Value
Filter coefficients.
Author(s)
Original Octave versions by Paul Kienzle (boxcar,
gausswin, triang) and Andreas Weingessel
(bartlett, blackman, hamming, hanning).
Conversion to R by Tom Short.
References
Oppenheim, A.V., and Schafer, R.W., Discrete-Time Signal Processing, Upper Saddle River, NJ: Prentice-Hall, 1999.
Gade, S., Herlufsen, H. (1987) “Use of weighting functions in DFT/FFT analysis (Part I)”, Bruel & Kjaer Technical Review No. 3.
https://en.wikipedia.org/wiki/Windowed_frame
Octave Forge https://octave.sourceforge.io/
See Also
filter, fftfilt,
filtfilt, fir1
Examples
1 2 3 4 5 6 7 8 9 10 11 | n <- 51
op <- par(mfrow = c(3,3))
plot(bartlett(n), type = "l", ylim = c(0,1))
plot(blackman(n), type = "l", ylim = c(0,1))
plot(boxcar(n), type = "l", ylim = c(0,1))
plot(flattopwin(n), type = "l", ylim = c(0,1))
plot(gausswin(n, 5), type = "l", ylim = c(0,1))
plot(hanning(n), type = "l", ylim = c(0,1))
plot(hamming(n), type = "l", ylim = c(0,1))
plot(triang(n), type = "l", ylim = c(0,1))
par(op)
|
Example output
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