mne.time_frequency.psd_array_welch#
- mne.time_frequency.psd_array_welch(x, sfreq, fmin=0, fmax=inf, n_fft=256, n_overlap=0, n_per_seg=None, n_jobs=None, average='mean', window='hamming', remove_dc=True, *, output='power', verbose=None)[source]#
Compute power spectral density (PSD) using Welch’s method.
Welch’s method is described in Welch[1].
- Parameters:
- x
array
, shape=(…, n_times) The data to compute PSD from.
- sfreq
float
The sampling frequency.
- fmin
float
The lower frequency of interest.
- fmax
float
The upper frequency of interest.
- n_fft
int
The length of FFT used, must be
>= n_per_seg
(default: 256). The segments will be zero-padded ifn_fft > n_per_seg
.- n_overlap
int
The number of points of overlap between segments. Will be adjusted to be <= n_per_seg. The default value is 0.
- n_per_seg
int
|None
Length of each Welch segment (windowed with a Hamming window). Defaults to None, which sets n_per_seg equal to n_fft.
- n_jobs
int
|None
The number of jobs to run in parallel. If
-1
, it is set to the number of CPU cores. Requires thejoblib
package.None
(default) is a marker for ‘unset’ that will be interpreted asn_jobs=1
(sequential execution) unless the call is performed under ajoblib.parallel_config
context manager that sets another value forn_jobs
.- average
str
|None
How to average the segments. If
mean
(default), calculate the arithmetic mean. Ifmedian
, calculate the median, corrected for its bias relative to the mean. IfNone
, returns the unaggregated segments.New in v0.19.0.
- window
str
|float
|tuple
Windowing function to use. See
scipy.signal.get_window()
.New in v0.22.0.
- remove_dcbool
If
True
, the mean is subtracted from each segment before computing its spectrum.- output
str
The format of the returned
psds
array,'complex'
or'power'
:'power'
: the power spectral density is returned.'complex'
: the complex fourier coefficients are returned per window.
New in v1.4.0.
- verbosebool |
str
|int
|None
Control verbosity of the logging output. If
None
, use the default verbosity level. See the logging documentation andmne.verbose()
for details. Should only be passed as a keyword argument.
- x
- Returns:
- psds
ndarray
, shape (…, n_freqs) or (…, n_freqs, n_segments) The power spectral densities. If
average='mean
oraverage='median'
, the returned array will have the same shape as the input data plus an additional frequency dimension. Ifaverage=None
, the returned array will have the same shape as the input data plus two additional dimensions corresponding to frequencies and the unaggregated segments, respectively.- freqs
ndarray
, shape (n_freqs,) The frequencies.
- psds
Notes
New in v0.14.0.
References
Examples using mne.time_frequency.psd_array_welch
#
Creating MNE-Python data structures from scratch
Compute Spectro-Spatial Decomposition (SSD) spatial filters