mne.time_frequency.dpss_windows#
- mne.time_frequency.dpss_windows(N, half_nbw, Kmax, low_bias=True, interp_from=None, interp_kind='linear')[source]#
Compute Discrete Prolate Spheroidal Sequences.
Will give of orders [0,Kmax-1] for a given frequency-spacing multiple NW and sequence length N.
Note
Copied from NiTime.
- Parameters:
- N
int
Sequence length.
- half_nbw
float
Standardized half bandwidth corresponding to 2 * half_bw = BW*f0 = BW*N/dt but with dt taken as 1.
- Kmax
int
Number of DPSS windows to return is Kmax (orders 0 through Kmax-1).
- low_bias
bool
Keep only tapers with eigenvalues > 0.9.
- interp_from
int
(optional) The dpss can be calculated using interpolation from a set of dpss with the same NW and Kmax, but shorter N. This is the length of this shorter set of dpss windows.
Note
If SciPy 1.1 or greater is available, interpolating is likely not necessary as DPSS computations should be sufficiently fast.
- interp_kind
str
(optional) This input variable is passed to scipy.interpolate.interp1d and specifies the kind of interpolation as a string (‘linear’, ‘nearest’, ‘zero’, ‘slinear’, ‘quadratic, ‘cubic’) or as an integer specifying the order of the spline interpolator to use.
- N
- Returns:
- v, etuple,
The v array contains DPSS windows shaped (Kmax, N). e are the eigenvalues.
Notes
Tridiagonal form of DPSS calculation from [1].
References