mne.stats.spatio_temporal_cluster_1samp_test¶
-
mne.stats.
spatio_temporal_cluster_1samp_test
(X, threshold=None, n_permutations=1024, tail=0, stat_fun=None, adjacency=None, n_jobs=1, seed=None, max_step=1, spatial_exclude=None, step_down_p=0, t_power=1, out_type='indices', check_disjoint=False, buffer_size=1000, connectivity=None, verbose=None)[source]¶ Non-parametric cluster-level paired t-test for spatio-temporal data.
This function provides a convenient wrapper for
mne.stats.permutation_cluster_1samp_test()
, for use with data organized in the form (observations × time × space). See 1 for details.- Parameters
- X
array
, shape (n_observations, n_times, n_vertices) The data to be clustered. The first dimension should correspond to the difference between paired samples (observations) in two conditions.
- threshold
float
|dict
|None
If numeric, vertices with data values more extreme than
threshold
will be used to form clusters. If threshold isNone
, a t-threshold will be chosen automatically that corresponds to a p-value of 0.05 for the given number of observations (only valid when using a t-statistic). Ifthreshold
is adict
(with keys'start'
and'step'
) then threshold-free cluster enhancement (TFCE) will be used (see the TFCE example and 2).- n_permutations
int
| ‘all’ The number of permutations to compute. Can be ‘all’ to perform an exact test.
- tail
int
If tail is 1, the statistic is thresholded above threshold. If tail is -1, the statistic is thresholded below threshold. If tail is 0, the statistic is thresholded on both sides of the distribution.
- stat_fun
callable()
|None
Function called to calculate the test statistic. Must accept 1D-array as input and return a 1D array. If
None
(the default), usesmne.stats.ttest_1samp_no_p()
.- adjacency
scipy.sparse.spmatrix
|None
|False
Defines adjacency between locations in the data, where “locations” can be spatial vertices, frequency bins, etc. If
False
, assumes no adjacency (each location is treated as independent and unconnected). IfNone
, a regular lattice adjacency is assumed, connecting each spatial location to its neighbor(s) along the last dimension ofX
. Ifadjacency
is a matrix, it is assumed to be symmetric (only the upper triangular half is used) and must be square with dimension equal toX.shape[-1]
(n_vertices) orX.shape[-1] * X.shape[-2]
(n_times * n_vertices). If spatial adjacency is uniform in time, it is recommended to use a square matrix with dimensionX.shape[-1]
(n_vertices) to save memory and computation, and to usemax_step
to define the extent of temporal adjacency to consider when clustering.- n_jobs
int
The number of jobs to run in parallel (default 1). Requires the joblib package.
- seed
None
|int
| instance ofRandomState
If
seed
is anint
, it will be used as a seed forRandomState
. IfNone
, the seed will be obtained from the operating system (seeRandomState
for details). Default isNone
.- max_step
int
Maximum distance along the second dimension (typically this is the “time” axis) between samples that are considered “connected”. Only used when
connectivity
has shape (n_vertices, n_vertices).- spatial_exclude
list
ofint
orNone
List of spatial indices to exclude from clustering.
- step_down_p
float
To perform a step-down-in-jumps test, pass a p-value for clusters to exclude from each successive iteration. Default is zero, perform no step-down test (since no clusters will be smaller than this value). Setting this to a reasonable value, e.g. 0.05, can increase sensitivity but costs computation time.
- t_power
float
Power to raise the statistical values (usually t-values) by before summing (sign will be retained). Note that
t_power=0
will give a count of locations in each cluster,t_power=1
will weight each location by its statistical score.- out_type‘mask’ | ‘indices’
Output format of clusters. If
'mask'
, returns boolean arrays the same shape as the input data, withTrue
values indicating locations that are part of a cluster. If'indices'
, returns a list of lists, where each sublist contains the indices of locations that together form a cluster. Note that for large datasets,'indices'
may use far less memory than'mask'
. Default is'indices'
.- check_disjointbool
Whether to check if the connectivity matrix can be separated into disjoint sets before clustering. This may lead to faster clustering, especially if the second dimension of
X
(usually the “time” dimension) is large.- buffer_size
int
|None
Block size to use when computing test statistics. This can significantly reduce memory usage when n_jobs > 1 and memory sharing between processes is enabled (see
mne.set_cache_dir()
), becauseX
will be shared between processes and each process only needs to allocate space for a small block of locations at a time.- connectivity
None
Deprecated and will be removed in 0.22, use
adjacency
instead.- verbosebool,
str
,int
, orNone
If not None, override default verbose level (see
mne.verbose()
and Logging documentation for more). If used, it should be passed as a keyword-argument only.
- X
- Returns
References
- 1
Eric Maris and Robert Oostenveld. Nonparametric statistical testing of EEG- and MEG-data. Journal of Neuroscience Methods, 164(1):177–190, 2007. doi:10.1016/j.jneumeth.2007.03.024.
- 2
Stephen M. Smith and Thomas E. Nichols. Threshold-free cluster enhancement: addressing problems of smoothing, threshold dependence and localisation in cluster inference. NeuroImage, 44(1):83–98, 2009. doi:10.1016/j.neuroimage.2008.03.061.