问题
I have a signal with sampling rate 16e3, its frequency range is from 125 to 1000 Hz. So if i plot a specgram i get a pretty small colorrange because of all the unused frequencys.
ive tried to fix it with setting ax limits but that does not work.
is there any way to cut off unused frequencys or replace them with NaNs?
Resampling the Data to 2e3 won't work because there are still some not used frequencys below 125 Hz.
Thanks for your help.
回答1:
specgram() is doing all the work for you. If you look in axes.py at the specgram function you can see how it works. The original function is in Python27\Lib\site-packages\matplotlib\axes.py on my computer.
<snip>
Pxx, freqs, bins = mlab.specgram(x, NFFT, Fs, detrend,
window, noverlap, pad_to, sides, scale_by_freq)
Z = 10. * np.log10(Pxx)
Z = np.flipud(Z)
if xextent is None: xextent = 0, np.amax(bins)
xmin, xmax = xextent
freqs += Fc
extent = xmin, xmax, freqs[0], freqs[-1]
im = self.imshow(Z, cmap, extent=extent, **kwargs)
self.axis('auto')
return Pxx, freqs, bins, im
You might have to make your own function modeled on this and clip the Pxx data to suit your needs.
Pxx, freqs, bins = mlab.specgram(x, NFFT, Fs, detrend,
window, noverlap, pad_to, sides, scale_by_freq)
# ****************
# create a new limited Pxx and freqs
#
# ****************
Z = 10. * np.log10(Pxx)
Z = np.flipud(Z)
Pxx is a 2d array with a shape of (len(freqs),len(bins)
>>> Pxx.shape
(129, 311)
>>> freqs.shape
(129,)
>>> bins.shape
(311,)
>>>
This will limit Pxx and freqs
Pxx = Pxx[(freqs >= 125) & (freqs <= 1000)]
freqs = freqs[(freqs >= 125) & (freqs <= 1000)]
Here is a complete solution - my_specgram() - used with the specgram_demo from the gallery.
from pylab import *
from matplotlib import *
# 100, 400 and 200 Hz sine 'wave'
dt = 0.0005
t = arange(0.0, 20.0, dt)
s1 = sin(2*pi*100*t)
s2 = 2*sin(2*pi*400*t)
s3 = 2*sin(2*pi*200*t)
# create a transient "chirp"
mask = where(logical_and(t>10, t<12), 1.0, 0.0)
s2 = s2 * mask
# add some noise into the mix
nse = 0.01*randn(len(t))
x = s1 + s2 + +s3 + nse # the signal
NFFT = 1024 # the length of the windowing segments
Fs = int(1.0/dt) # the sampling frequency
# modified specgram()
def my_specgram(x, NFFT=256, Fs=2, Fc=0, detrend=mlab.detrend_none,
window=mlab.window_hanning, noverlap=128,
cmap=None, xextent=None, pad_to=None, sides='default',
scale_by_freq=None, minfreq = None, maxfreq = None, **kwargs):
"""
call signature::
specgram(x, NFFT=256, Fs=2, Fc=0, detrend=mlab.detrend_none,
window=mlab.window_hanning, noverlap=128,
cmap=None, xextent=None, pad_to=None, sides='default',
scale_by_freq=None, minfreq = None, maxfreq = None, **kwargs)
Compute a spectrogram of data in *x*. Data are split into
*NFFT* length segments and the PSD of each section is
computed. The windowing function *window* is applied to each
segment, and the amount of overlap of each segment is
specified with *noverlap*.
%(PSD)s
*Fc*: integer
The center frequency of *x* (defaults to 0), which offsets
the y extents of the plot to reflect the frequency range used
when a signal is acquired and then filtered and downsampled to
baseband.
*cmap*:
A :class:`matplotlib.cm.Colormap` instance; if *None* use
default determined by rc
*xextent*:
The image extent along the x-axis. xextent = (xmin,xmax)
The default is (0,max(bins)), where bins is the return
value from :func:`mlab.specgram`
*minfreq, maxfreq*
Limits y-axis. Both required
*kwargs*:
Additional kwargs are passed on to imshow which makes the
specgram image
Return value is (*Pxx*, *freqs*, *bins*, *im*):
- *bins* are the time points the spectrogram is calculated over
- *freqs* is an array of frequencies
- *Pxx* is a len(times) x len(freqs) array of power
- *im* is a :class:`matplotlib.image.AxesImage` instance
Note: If *x* is real (i.e. non-complex), only the positive
spectrum is shown. If *x* is complex, both positive and
negative parts of the spectrum are shown. This can be
overridden using the *sides* keyword argument.
**Example:**
.. plot:: mpl_examples/pylab_examples/specgram_demo.py
"""
#####################################
# modified axes.specgram() to limit
# the frequencies plotted
#####################################
# this will fail if there isn't a current axis in the global scope
ax = gca()
Pxx, freqs, bins = mlab.specgram(x, NFFT, Fs, detrend,
window, noverlap, pad_to, sides, scale_by_freq)
# modified here
#####################################
if minfreq is not None and maxfreq is not None:
Pxx = Pxx[(freqs >= minfreq) & (freqs <= maxfreq)]
freqs = freqs[(freqs >= minfreq) & (freqs <= maxfreq)]
#####################################
Z = 10. * np.log10(Pxx)
Z = np.flipud(Z)
if xextent is None: xextent = 0, np.amax(bins)
xmin, xmax = xextent
freqs += Fc
extent = xmin, xmax, freqs[0], freqs[-1]
im = ax.imshow(Z, cmap, extent=extent, **kwargs)
ax.axis('auto')
return Pxx, freqs, bins, im
# plot
ax1 = subplot(211)
plot(t, x)
subplot(212, sharex=ax1)
# the minfreq and maxfreq args will limit the frequencies
Pxx, freqs, bins, im = my_specgram(x, NFFT=NFFT, Fs=Fs, noverlap=900,
cmap=cm.Accent, minfreq = 180, maxfreq = 220)
show()
close()
回答2:
These days, there's an easier way to do this than when the question was asked: you can use matplotlib.pyplot.axis to set ymin and ymax to your desired frequencies. It's quite easy; here's a snippet from my program:
plt.specgram(xmit, NFFT=65536, Fs=Fs)
plt.axis(ymin=Fc-Fa*10, ymax=Fc+Fa*10)
plt.show()
回答3:
specgram() returns (Pxx, freqs, bins, im), where im is AxesImage instance [1]. You could use it to set the limits of your plot:
Pxx, freqs, bins, im = plt.specgram(signal, Fs=fs)
im.set_ylim((125,1000))
[1] http://matplotlib.org/api/pyplot_api.html#matplotlib.pyplot.specgram
回答4:
Here is an adapted version of this: http://matplotlib.org/examples/pylab_examples/specgram_demo.html which changes the range of frequencies that are plotted.
#!/usr/bin/env python
#### from the example
####
from pylab import *
dt = 0.0005
t = arange(0.0, 20.0, dt)
s1 = sin(2*pi*100*t)
s2 = 2*sin(2*pi*400*t)
mask = where(logical_and(t>10, t<12), 1.0, 0.0)
s2 = s2 * mask
nse = 0.01*randn(len(t))
x = s1 + s2 + nse # the signal
NFFT = 1024 # the length of the windowing segments
Fs = int(1.0/dt) # the sampling frequency
ax1 = subplot(211)
plot(t, x)
subplot(212, sharex=ax1)
Pxx, freqs, bins, im = specgram(x, NFFT=NFFT, Fs=Fs, noverlap=900,
cmap=cm.gist_heat)
#### edited from the example
####
# here we get access to the axes
x1,x2,y1,y2 = axis()
# leave x range the same, change y (frequency) range
axis((x1,x2,25,500))
show()
来源:https://stackoverflow.com/questions/19468923/cutting-of-unused-frequencies-in-specgram-matplotlib