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Plot custom topographies for MEG sensors#
This example exposes the iter_topography()
function that makes
it very easy to generate custom sensor topography plots.
Here we will plot the power spectrum of each channel on a topographic
layout.
# Author: Denis A. Engemann <denis.engemann@gmail.com>
#
# License: BSD-3-Clause
# Copyright the MNE-Python contributors.
import matplotlib.pyplot as plt
import numpy as np
import mne
from mne import io
from mne.datasets import sample
from mne.viz import iter_topography
print(__doc__)
data_path = sample.data_path()
meg_path = data_path / "MEG" / "sample"
raw_fname = meg_path / "sample_audvis_filt-0-40_raw.fif"
raw = io.read_raw_fif(raw_fname, preload=True)
raw.filter(1, 20, fir_design="firwin")
picks = mne.pick_types(raw.info, meg=True, exclude=[])
tmin, tmax = 0, 120 # use the first 120s of data
fmin, fmax = 2, 20 # look at frequencies between 2 and 20Hz
n_fft = 2048 # the FFT size (n_fft). Ideally a power of 2
spectrum = raw.compute_psd(picks=picks, tmin=tmin, tmax=tmax, fmin=fmin, fmax=fmax)
psds, freqs = spectrum.get_data(exclude=(), return_freqs=True)
psds = 20 * np.log10(psds) # scale to dB
def my_callback(ax, ch_idx):
"""Handle axes callback.
This block of code is executed once you click on one of the channel axes
in the plot. To work with the viz internals, this function should only take
two parameters, the axis and the channel or data index.
"""
ax.plot(freqs, psds[ch_idx], color="red")
ax.set_xlabel("Frequency (Hz)")
ax.set_ylabel("Power (dB)")
for ax, idx in iter_topography(
raw.info,
fig_facecolor="white",
axis_facecolor="white",
axis_spinecolor="white",
on_pick=my_callback,
):
ax.plot(psds[idx], color="red")
plt.gcf().suptitle("Power spectral densities")
plt.show()
Opening raw data file /home/circleci/mne_data/MNE-sample-data/MEG/sample/sample_audvis_filt-0-40_raw.fif...
Read a total of 4 projection items:
PCA-v1 (1 x 102) idle
PCA-v2 (1 x 102) idle
PCA-v3 (1 x 102) idle
Average EEG reference (1 x 60) idle
Range : 6450 ... 48149 = 42.956 ... 320.665 secs
Ready.
Reading 0 ... 41699 = 0.000 ... 277.709 secs...
Filtering raw data in 1 contiguous segment
Setting up band-pass filter from 1 - 20 Hz
FIR filter parameters
---------------------
Designing a one-pass, zero-phase, non-causal bandpass filter:
- Windowed time-domain design (firwin) method
- Hamming window with 0.0194 passband ripple and 53 dB stopband attenuation
- Lower passband edge: 1.00
- Lower transition bandwidth: 1.00 Hz (-6 dB cutoff frequency: 0.50 Hz)
- Upper passband edge: 20.00 Hz
- Upper transition bandwidth: 5.00 Hz (-6 dB cutoff frequency: 22.50 Hz)
- Filter length: 497 samples (3.310 s)
[Parallel(n_jobs=1)]: Done 17 tasks | elapsed: 0.0s
[Parallel(n_jobs=1)]: Done 71 tasks | elapsed: 0.1s
[Parallel(n_jobs=1)]: Done 161 tasks | elapsed: 0.3s
[Parallel(n_jobs=1)]: Done 287 tasks | elapsed: 0.5s
Effective window size : 13.639 (s)
Total running time of the script: (0 minutes 13.371 seconds)
Estimated memory usage: 156 MB