scipy.signal.windows.get_window¶
-
scipy.signal.windows.
get_window
(window, Nx, fftbins=True)[source]¶ Return a window.
- Parameters
- windowstring, float, or tuple
The type of window to create. See below for more details.
- Nxint
The number of samples in the window.
- fftbinsbool, optional
If True (default), create a “periodic” window, ready to use with ifftshift and be multiplied by the result of an FFT (see also fftpack.fftfreq). If False, create a “symmetric” window, for use in filter design.
- Returns
- get_windowndarray
Returns a window of length Nx and type window
Notes
Window types:
boxcar
,triang
,blackman
,hamming
,hann
,bartlett
,flattop
,parzen
,bohman
,blackmanharris
,nuttall
,barthann
,kaiser
(needs beta),gaussian
(needs standard deviation),general_gaussian
(needs power, width),slepian
(needs width),dpss
(needs normalized half-bandwidth),chebwin
(needs attenuation),exponential
(needs decay scale),tukey
(needs taper fraction)If the window requires no parameters, then window can be a string.
If the window requires parameters, then window must be a tuple with the first argument the string name of the window, and the next arguments the needed parameters.
If window is a floating point number, it is interpreted as the beta parameter of the
kaiser
window.Each of the window types listed above is also the name of a function that can be called directly to create a window of that type.
Examples
>>> from scipy import signal >>> signal.get_window('triang', 7) array([ 0.125, 0.375, 0.625, 0.875, 0.875, 0.625, 0.375]) >>> signal.get_window(('kaiser', 4.0), 9) array([ 0.08848053, 0.29425961, 0.56437221, 0.82160913, 0.97885093, 0.97885093, 0.82160913, 0.56437221, 0.29425961]) >>> signal.get_window(4.0, 9) array([ 0.08848053, 0.29425961, 0.56437221, 0.82160913, 0.97885093, 0.97885093, 0.82160913, 0.56437221, 0.29425961])