本文整理汇总了Python中mne.preprocessing.create_eog_epochs函数的典型用法代码示例。如果您正苦于以下问题:Python create_eog_epochs函数的具体用法?Python create_eog_epochs怎么用?Python create_eog_epochs使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了create_eog_epochs函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: test_plot_ica_overlay
def test_plot_ica_overlay():
"""Test plotting of ICA cleaning."""
import matplotlib.pyplot as plt
raw = _get_raw(preload=True)
picks = _get_picks(raw)
ica = ICA(noise_cov=read_cov(cov_fname), n_components=2,
max_pca_components=3, n_pca_components=3)
# can't use info.normalize_proj here because of how and when ICA and Epochs
# objects do picking of Raw data
with pytest.warns(RuntimeWarning, match='projection'):
ica.fit(raw, picks=picks)
# don't test raw, needs preload ...
with pytest.warns(RuntimeWarning, match='projection'):
ecg_epochs = create_ecg_epochs(raw, picks=picks)
ica.plot_overlay(ecg_epochs.average())
with pytest.warns(RuntimeWarning, match='projection'):
eog_epochs = create_eog_epochs(raw, picks=picks)
ica.plot_overlay(eog_epochs.average())
pytest.raises(TypeError, ica.plot_overlay, raw[:2, :3][0])
ica.plot_overlay(raw)
plt.close('all')
# smoke test for CTF
raw = read_raw_fif(raw_ctf_fname)
raw.apply_gradient_compensation(3)
picks = pick_types(raw.info, meg=True, ref_meg=False)
ica = ICA(n_components=2, max_pca_components=3, n_pca_components=3)
ica.fit(raw, picks=picks)
with pytest.warns(RuntimeWarning, match='longer than'):
ecg_epochs = create_ecg_epochs(raw)
ica.plot_overlay(ecg_epochs.average())
plt.close('all')
开发者ID:SherazKhan,项目名称:mne-python,代码行数:32,代码来源:test_ica.py
示例2: test_plot_ica_overlay
def test_plot_ica_overlay():
"""Test plotting of ICA cleaning
"""
raw = _get_raw()
picks = _get_picks(raw)
ica_picks = pick_types(raw.info, meg=True, eeg=False, stim=False, ecg=False, eog=False, exclude="bads")
ica = ICA(noise_cov=read_cov(cov_fname), n_components=2, max_pca_components=3, n_pca_components=3)
ica.fit(raw, picks=ica_picks)
# don't test raw, needs preload ...
ecg_epochs = create_ecg_epochs(raw, picks=picks)
ica.plot_overlay(ecg_epochs.average())
eog_epochs = create_eog_epochs(raw, picks=picks)
ica.plot_overlay(eog_epochs.average())
assert_raises(ValueError, ica.plot_overlay, raw[:2, :3][0])
plt.close("all")
开发者ID:rgoj,项目名称:mne-python,代码行数:15,代码来源:test_viz.py
示例3: test_plot_ica_overlay
def test_plot_ica_overlay():
"""Test plotting of ICA cleaning
"""
raw = _get_raw()
picks = _get_picks(raw)
ica = ICA(noise_cov=read_cov(cov_fname), n_components=2,
max_pca_components=3, n_pca_components=3)
ica.fit(raw, picks=picks)
# don't test raw, needs preload ...
ecg_epochs = create_ecg_epochs(raw, picks=picks)
ica.plot_overlay(ecg_epochs.average())
eog_epochs = create_eog_epochs(raw, picks=picks)
ica.plot_overlay(eog_epochs.average())
assert_raises(ValueError, ica.plot_overlay, raw[:2, :3][0])
plt.close('all')
开发者ID:dengemann,项目名称:mne-python,代码行数:15,代码来源:test_ica.py
示例4: test_plot_ica_overlay
def test_plot_ica_overlay():
"""Test plotting of ICA cleaning."""
import matplotlib.pyplot as plt
raw = _get_raw(preload=True)
picks = _get_picks(raw)
ica = ICA(noise_cov=read_cov(cov_fname), n_components=2,
max_pca_components=3, n_pca_components=3)
# can't use info.normalize_proj here because of how and when ICA and Epochs
# objects do picking of Raw data
with warnings.catch_warnings(record=True): # bad proj
ica.fit(raw, picks=picks)
# don't test raw, needs preload ...
with warnings.catch_warnings(record=True): # bad proj
ecg_epochs = create_ecg_epochs(raw, picks=picks)
ica.plot_overlay(ecg_epochs.average())
with warnings.catch_warnings(record=True): # bad proj
eog_epochs = create_eog_epochs(raw, picks=picks)
ica.plot_overlay(eog_epochs.average())
assert_raises(ValueError, ica.plot_overlay, raw[:2, :3][0])
ica.plot_overlay(raw)
plt.close('all')
开发者ID:jmontoyam,项目名称:mne-python,代码行数:21,代码来源:test_ica.py
示例5: dict
mne.viz.plot_events(events, raw.info['sfreq'])
event_ids = {"faces": 1, "scrambled": 2}
tmin, tmax = -0.2, 0.6
baseline = None # no baseline as high-pass is applied
reject = dict(mag=5e-12)
epochs = mne.Epochs(raw, events, event_ids, tmin, tmax, picks=picks,
baseline=baseline, preload=True, reject=reject)
# Fit ICA, find and remove major artifacts
ica = ICA(n_components=0.95, random_state=0).fit(raw, decim=1, reject=reject)
# compute correlation scores, get bad indices sorted by score
eog_epochs = create_eog_epochs(raw, ch_name='MRT31-2908', reject=reject)
eog_inds, eog_scores = ica.find_bads_eog(eog_epochs, ch_name='MRT31-2908')
ica.plot_scores(eog_scores, eog_inds) # see scores the selection is based on
ica.plot_components(eog_inds) # view topographic sensitivity of components
ica.exclude += eog_inds[:1] # we saw the 2nd ECG component looked too dipolar
ica.plot_overlay(eog_epochs.average()) # inspect artifact removal
ica.apply(epochs) # clean data, default in place
evoked = [epochs[k].average() for k in event_ids]
contrast = combine_evoked(evoked, weights=[-1, 1]) # Faces - scrambled
evoked.append(contrast)
for e in evoked:
e.plot(ylim=dict(mag=[-400, 400]))
开发者ID:jhouck,项目名称:mne-python,代码行数:31,代码来源:spm_faces_dataset.py
示例6: ICA
# We pass a float value between 0 and 1 to select n_components based on the
# percentage of variance explained by the PCA components.
ica = ICA(n_components=0.90, max_pca_components=None)
###############################################################################
# 1) Fit ICA model and identify bad sources
picks = mne.pick_types(raw.info, meg=True, eeg=False, eog=False,
stim=False, exclude='bads')
ica.fit(raw, picks=picks, decim=3, reject=dict(mag=4e-12, grad=4000e-13))
# create EOG epochs to improve detection by correlation
picks = mne.pick_types(raw.info, meg=True, eog=True)
eog_epochs = create_eog_epochs(raw, picks=picks)
eog_inds, scores = ica.find_bads_eog(eog_epochs) # inds sorted!
ica.plot_scores(scores, exclude=eog_inds) # inspect metrics used
show_picks = np.abs(scores).argsort()[::-1][:5] # indices of top five scores
# detected artifacts drawn in red (via exclude)
ica.plot_sources(raw, show_picks, exclude=eog_inds, start=0., stop=3.0)
ica.plot_components(eog_inds, colorbar=False) # show component sensitivites
ica.exclude += eog_inds[:1] # mark first for exclusion
###############################################################################
# 3) check detection and visualize artifact rejection
开发者ID:katcharewich,项目名称:mne-python,代码行数:31,代码来源:plot_ica_from_raw.py
示例7: ica_method
def ica_method(raw, picks, plot='n', save ='n'):
###############################################################################
# 1) Fit ICA model using the FastICA algorithm
# Other available choices are `infomax` or `extended-infomax`
# We pass a float value between 0 and 1 to select n_components based on the
# percentage of variance explained by the PCA components.
ica = ICA(n_components=0.95, method='fastica')
picks = mne.pick_types(raw.info, meg=False, eeg=True, eog=False,
stim=False, exclude='bads')
ica.fit(raw, picks=picks, decim=3)
# maximum number of components to reject
n_max_eog = 1 # here we don't expect horizontal EOG components
###############################################################################
# 2) identify bad components by analyzing latent sources.
# detect EOG by correlation
eog_inds, scores = ica.find_bads_eog(raw, threshold=2.5)
show_picks = np.abs(scores).argsort()[::-1][:5]
eog_inds = eog_inds[:n_max_eog]
ica.exclude += eog_inds
###############################################################################
# 3) Assess component selection and unmixing quality
eog_evoked = create_eog_epochs(raw, tmin=-.5, tmax=.5, picks=picks).average()
if plot=='y':
title = 'Sources related to %s artifacts (red)'
ica.plot_scores(scores, exclude=eog_inds, title=title % 'eog', labels='eog')
if save=='y':
pylab.savefig('2.png')
ica.plot_sources(raw, show_picks, exclude=eog_inds, title=title % 'eog')
if save=='y':
pylab.savefig('3.png')
ica.plot_components(eog_inds, title=title % 'eog', colorbar=True)
if save=='y':
pylab.savefig('4.png')
ica.plot_overlay(raw) # EOG artifacts remain
if save=='y':
pylab.savefig('5.png')
ica.plot_sources(eog_evoked, exclude=eog_inds) # plot EOG sources + selection
if save=='y':
pylab.savefig('6.png')
ica.plot_overlay(eog_evoked, exclude=eog_inds) # plot EOG cleaning
if save=='y':
pylab.savefig('7.png')
ica.apply(raw, exclude=eog_inds)
eeg_only_after=raw.pick_types(meg=False, eeg=True)
return eeg_only_after
开发者ID:RenatoBMLR,项目名称:ProjectSigma205,代码行数:70,代码来源:ValidationICA.py
示例8: create_eog_epochs
exclude='bads')
ica.fit(raw, picks=picks, decim=decim, reject=reject_params)
# maximum number of components to reject
n_max_eog = 1
n_max_ecg = 3
##########################################################################
# 2) identify bad components by analyzing latent sources.
# DETECT EOG BY CORRELATION
# HORIZONTAL EOG
title = "ICA: %s for %s"
eog_epochs = create_eog_epochs(raw, ch_name="EOG002") # TODO: check EOG
eog_average = eog_epochs.average()
# channel name
eog_inds, scores = ica.find_bads_eog(raw)
eog_inds = eog_inds[:n_max_eog]
ica.exclude += eog_inds
if eog_inds:
fig = ica.plot_scores(
scores, exclude=eog_inds, title=title % ('eog', subject))
fig.savefig(ica_folder + "plots/%s_%s_eog_scores_2.png" % (subject,
condition))
fig = ica.plot_sources(eog_average, exclude=eog_inds)
fig.savefig(ica_folder + "plots/%s_%s_eog_source_2.png" % (subject,
condition))
开发者ID:MadsJensen,项目名称:RP_scripts,代码行数:31,代码来源:filter_ICA.py
示例9: compute_ica
#.........这里部分代码省略.........
fig = ica.plot_scores(scores, exclude=ecg_inds, labels='ecg',
title='', show=show)
report.add_figs_to_section(fig, 'scores ({})'.format(subject),
section=comment + 'ECG',
scale=img_scale)
current_exclude = [e for e in ica.exclude] # issue #2608 MNE
fig = ica.plot_sources(raw, ecg_inds, exclude=ecg_inds,
title=title % ('components', 'ecg'), show=show)
report.add_figs_to_section(fig, 'sources ({})'.format(subject),
section=comment + 'ECG',
scale=img_scale)
ica.exclude = current_exclude
fig = ica.plot_components(ecg_inds, ch_type=topo_ch_type,
title='', colorbar=True, show=show)
report.add_figs_to_section(fig, title % ('sources', 'ecg'),
section=comment + 'ECG', scale=img_scale)
ica.exclude = current_exclude
ecg_inds = ecg_inds[:n_max_ecg]
ica.exclude += ecg_inds
fig = ica.plot_sources(ecg_evoked, exclude=ecg_inds, show=show)
report.add_figs_to_section(fig, 'evoked sources ({})'.format(subject),
section=comment + 'ECG',
scale=img_scale)
fig = ica.plot_overlay(ecg_evoked, exclude=ecg_inds, show=show)
report.add_figs_to_section(fig,
'rejection overlay ({})'.format(subject),
section=comment + 'ECG',
scale=img_scale)
# detect EOG by correlation
picks_eog = np.concatenate(
[picks_, pick_types(raw.info, meg=False, eeg=False, ecg=False,
eog=True)])
eog_epochs = create_eog_epochs(raw, tmin=eog_tmin, tmax=eog_tmax,
picks=picks_eog, reject=reject_)
artifact_stats['eog_n_events'] = len(eog_epochs.events)
artifact_stats['eog_n_used'] = artifact_stats['eog_n_events']
eog_ave = eog_epochs.average()
report.add_figs_to_section(eog_ave.plot(), 'EOG-used', 'artifacts')
_put_artifact_range(artifact_stats, eog_ave, kind='eog')
eog_inds = None
if len(eog_epochs.events) > 0:
eog_inds, scores = ica.find_bads_eog(eog_epochs)
if eog_inds is not None and len(eog_epochs.events) > 0:
fig = ica.plot_scores(scores, exclude=eog_inds, labels='eog',
show=show, title='')
report.add_figs_to_section(fig, 'scores ({})'.format(subject),
section=comment + 'EOG',
scale=img_scale)
current_exclude = [e for e in ica.exclude] # issue #2608 MNE
fig = ica.plot_sources(raw, eog_inds, exclude=ecg_inds,
title=title % ('sources', 'eog'), show=show)
report.add_figs_to_section(fig, 'sources', section=comment + 'EOG',
scale=img_scale)
ica.exclude = current_exclude
fig = ica.plot_components(eog_inds, ch_type=topo_ch_type,
title='', colorbar=True, show=show)
report.add_figs_to_section(fig, title % ('components', 'eog'),
section=comment + 'EOG', scale=img_scale)
ica.exclude = current_exclude
eog_inds = eog_inds[:n_max_eog]
ica.exclude += eog_inds
eog_evoked = eog_epochs.average()
fig = ica.plot_sources(eog_evoked, exclude=eog_inds, show=show)
report.add_figs_to_section(
fig, 'evoked sources ({})'.format(subject),
section=comment + 'EOG', scale=img_scale)
fig = ica.plot_overlay(eog_evoked, exclude=eog_inds, show=show)
report.add_figs_to_section(
fig, 'rejection overlay({})'.format(subject),
section=comment + 'EOG', scale=img_scale)
else:
del eog_epochs
# check the amplitudes do not change
if len(ica.exclude) > 0:
fig = ica.plot_overlay(raw, show=show) # EOG artifacts remain
html = _render_components_table(ica)
report.add_htmls_to_section(
html, captions='excluded components',
section='ICA rejection summary (%s)' % ch_type)
report.add_figs_to_section(
fig, 'rejection overlay({})'.format(subject),
section=comment + 'RAW', scale=img_scale)
return ica, dict(html=report, stats=artifact_stats)
开发者ID:christianbrodbeck,项目名称:meeg-preprocessing,代码行数:101,代码来源:preprocessing.py
示例10: runICA
def runICA(raw,saveRoot,name):
saveRoot = saveRoot
icaList = []
ica = []
n_max_ecg = 3 # max number of ecg components
# n_max_eog_1 = 2 # max number of vert eog comps
# n_max_eog_2 = 2 # max number of horiz eog comps
ecg_source_idx, ecg_scores, ecg_exclude = [], [], []
eog_source_idx, eog_scores, eog_exclude = [], [], []
#horiz = 1 # will later be modified to horiz = 0 if no horizontal EOG components are identified
ica = ICA(n_components=0.90,n_pca_components=64,max_pca_components=100,noise_cov=None)
ica.fit(raw)
#*************
eog_picks = mne.pick_types(raw.info, meg=False, eeg=False, stim=False, eog=True, ecg=False, emg=False)[0]
ecg_picks = mne.pick_types(raw.info, meg=False, eeg=False, stim=False, ecg=True, eog=False, emg=False)[0]
ica_picks = mne.pick_types(raw.info, meg=True, eeg=False, eog=False, ecg=False,
stim=False, exclude='bads')
ecg_epochs = create_ecg_epochs(raw, tmin=-.5, tmax=.5, picks=ica_picks)
ecg_evoked = ecg_epochs.average()
eog_evoked = create_eog_epochs(raw, tmin=-.5, tmax=.5, picks=ica_picks).average()
ecg_source_idx, ecg_scores = ica.find_bads_ecg(ecg_epochs, method='ctps')
eog_source_idx, eog_scores = ica.find_bads_eog(raw,ch_name=raw.ch_names[eog_picks].encode('ascii', 'ignore'))
# defining a title-frame for later use
title = 'Sources related to %s artifacts (red)'
# extracting number of ica-components and plotting their topographies
source_idx = range(0, ica.n_components_)
ica_plot = ica.plot_components(source_idx, ch_type="mag")
# select ICA sources and reconstruct MEG signals, compute clean ERFs
# Add detected artefact sources to exclusion list
# We now add the eog artefacts to the ica.exclusion list
if not ecg_source_idx:
print("No ECG components above threshold were identified for subject " + name +
" - selecting the component with the highest score under threshold")
ecg_exclude = [np.absolute(ecg_scores).argmax()]
ecg_source_idx=[np.absolute(ecg_scores).argmax()]
elif ecg_source_idx:
ecg_exclude += ecg_source_idx[:n_max_ecg]
ica.exclude += ecg_exclude
if not eog_source_idx:
if np.absolute(eog_scores).any>0.3:
eog_exclude=[np.absolute(eog_scores).argmax()]
eog_source_idx=[np.absolute(eog_scores).argmax()]
print("No EOG components above threshold were identified " + name +
" - selecting the component with the highest score under threshold above 0.3")
elif not np.absolute(eog_scores).any>0.3:
eog_exclude=[]
print("No EOG components above threshold were identified" + name)
elif eog_source_idx:
eog_exclude += eog_source_idx
ica.exclude += eog_exclude
print('########## saving')
if len(eog_exclude) == 0:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg_none' + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 1:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 2:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 3:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '_' + map(str, ecg_exclude)[2] + '.pdf', format = 'pdf')
elif len(eog_exclude) == 1:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg_none' + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 1:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 2:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 3:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '_' + map(str, ecg_exclude)[2] + '.pdf', format = 'pdf')
elif len(eog_exclude) == 2:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] + '_' + map(str, eog_exclude)[1] +
'-ecg_none' + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 1:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] + '_' + map(str, eog_exclude)[1] +
'-ecg' + map(str, ecg_exclude)[0] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 2:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] + '_' + map(str, eog_exclude)[1] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 3:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] + '_' + map(str, eog_exclude)[1] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '_' + map(str, ecg_exclude)[2] + '.pdf', format = 'pdf')
# plot the scores for the different components highlighting in red that/those related to ECG
scores_plots_ecg=ica.plot_scores(ecg_scores, exclude=ecg_source_idx, title=title % 'ecg')
scores_plots_ecg.savefig(saveRoot + name + '_ecg_scores.pdf', format = 'pdf')
scores_plots_eog=ica.plot_scores(eog_scores, exclude=eog_source_idx, title=title % 'eog')
#.........这里部分代码省略.........
开发者ID:sarathykousik,项目名称:pipelines,代码行数:101,代码来源:analysisPipelineFunctions_eog-ecg.py
示例11: compute_ica
def compute_ica(subject, data_folder):
"""Function will compute ICA on raw and apply the ICA.
Parameters
----------
subject : string
the subject id to be loaded
"""
raw = mne.io.Raw(data_folder + "%s_bp-raw.fif" % subject, preload=True)
raw.set_montage = montage
raw.apply_proj()
# raw.resample(512, n_jobs=2)
# ICA Part
ica = ICA(n_components=None,
max_pca_components=40,
method='fastica',
max_iter=256)
picks = mne.pick_types(
raw.info, meg=False, eeg=True, stim=False, exclude='bads')
ica.fit(raw, picks=picks, decim=decim, reject=reject)
# maximum number of components to reject
n_max_eog = 1
##########################################################################
# 2) identify bad components by analyzing latent sources.
title = 'Sources related to %s artifacts (red) for sub: %s'
#
# # generate ECG epochs use detection via phase statistics
# ecg_epochs = create_ecg_epochs(raw, ch_name="Ext4",
# tmin=-.5, tmax=.5, picks=picks)
# n_ecg_epochs_found = len(ecg_epochs.events)
# sel_ecg_epochs = np.arange(0, n_ecg_epochs_found, 10)
# ecg_epochs = ecg_epochs[sel_ecg_epochs]
#
# ecg_inds, scores = ica.find_bads_ecg(ecg_epochs, method='ctps')
# fig = ica.plot_scores(scores, exclude=ecg_inds,
# title=title % ('ecg', subject))
# fig.savefig(data_folder + "pics/%s_ecg_scores.png" % subject)
#
# if ecg_inds:
# show_picks = np.abs(scores).argsort()[::-1][:5]
#
# fig = ica.plot_sources(raw, show_picks, exclude=ecg_inds,
# title=title % ('ecg', subject), show=False)
# fig.savefig(data_folder + "pics/%s_ecg_sources.png" % subject)
# fig = ica.plot_components(ecg_inds, title=title % ('ecg', subject),
# colorbar=True)
# fig.savefig(data_folder + "pics/%s_ecg_component.png" % subject)
#
# ecg_inds = ecg_inds[:n_max_ecg]
# ica.exclude += ecg_inds
#
# # estimate average artifact
# ecg_evoked = ecg_epochs.average()
# del ecg_epochs
#
# # plot ECG sources + selection
# fig = ica.plot_sources(ecg_evoked, exclude=ecg_inds)
# fig.savefig(data_folder + "pics/%s_ecg_sources_ave.png" % subject)
#
# # plot ECG cleaning
# ica.plot_overlay(ecg_evoked, exclude=ecg_inds)
# fig.savefig(data_folder + "pics/%s_ecg_sources_clean_ave.png" % subject)
# DETECT EOG BY CORRELATION
# HORIZONTAL EOG
eog_epochs = create_eog_epochs(raw, ch_name="EXG4")
eog_indices, scores = ica.find_bads_eog(raw, ch_name="EXG4")
fig = ica.plot_scores(
scores, exclude=eog_indices, title=title % ('eog', subject))
fig.savefig(data_folder + "pics/%s_eog_scores.png" % subject)
fig = ica.plot_components(
eog_indices, title=title % ('eog', subject), colorbar=True)
fig.savefig(data_folder + "pics/%s_eog_component.png" % subject)
eog_indices = eog_indices[:n_max_eog]
ica.exclude += eog_indices
del eog_epochs
##########################################################################
# Apply the solution to Raw, Epochs or Evoked like this:
raw_ica = ica.apply(raw)
ica.save(data_folder + "%s-ica.fif" % subject) # save ICA componenets
# Save raw with ICA removed
raw_ica.save(data_folder + "%s_bp_ica-raw.fif" % subject, overwrite=True)
plt.close("all")
开发者ID:MadsJensen,项目名称:agency_connectivity,代码行数:92,代码来源:preprocessing.py
示例12: runICA
def runICA(raw,saveRoot,name):
saveRoot = saveRoot
icaList = []
ica = []
n_max_ecg = 3 # max number of ecg components
# n_max_eog_1 = 2 # max number of vert eog comps
# n_max_eog_2 = 2 # max number of horiz eog comps
ecg_source_idx, ecg_scores, ecg_exclude = [], [], []
eog_source_idx, eog_scores, eog_exclude = [], [], []
#horiz = 1 # will later be modified to horiz = 0 if no horizontal EOG components are identified
ica = ICA(n_components=0.90,n_pca_components=64,max_pca_components=100,noise_cov=None)
fit_picks = mne.pick_types(raw.info, meg=True, eeg=True, eog=False, ecg=False,
stim=False, exclude='bads')
ica.fit(raw, picks=fit_picks)
#ica.fit(raw)
#*************
eog_picks = mne.pick_types(raw.info, meg=False, eeg=False, stim=False, eog=True, ecg=False, emg=False)[0]
ecg_picks = mne.pick_types(raw.info, meg=False, eeg=False, stim=False, ecg=True, eog=False, emg=False)[0]
ica_picks = mne.pick_types(raw.info, meg=True, eeg=True, eog=False, ecg=False,
stim=False, exclude='bads')
ecg_epochs = create_ecg_epochs(raw, tmin=-.5, tmax=.5, picks=ica_picks)
ecg_evoked = ecg_epochs.average()
eog_evoked = create_eog_epochs(raw, tmin=-.5, tmax=.5, picks=ica_picks).average()
ecg_source_idx, ecg_scores = ica.find_bads_ecg(ecg_epochs, method='ctps')
eog_source_idx, eog_scores = ica.find_bads_eog(raw,ch_name=raw.ch_names[eog_picks].encode('ascii', 'ignore'))
#eog_source_idx_2, eog_scores_2 = ica.find_bads_eog(raw,ch_name='EOG002')
#if not eog_source_idx_2:
# horiz = 0
#show_picks = np.abs(scores).argsort()[::-1][:5]
#ica.plot_sources(raw, show_picks, exclude=ecg_inds, title=title % 'ecg')
# defining a title-frame for later use
title = 'Sources related to %s artifacts (red)'
# extracting number of ica-components and plotting their topographies
source_idx = range(0, ica.n_components_)
#ica_plot = ica.plot_components(source_idx, ch_type="mag")
ica_plot = ica.plot_components(source_idx)
#ica_plot = ica.plot_components(source_idx)
# select ICA sources and reconstruct MEG signals, compute clean ERFs
# Add detected artefact sources to exclusion list
# We now add the eog artefacts to the ica.exclusion list
if not ecg_source_idx:
print("No ECG components above threshold were identified for subject " + name +
" - selecting the component with the highest score under threshold")
ecg_exclude = [np.absolute(ecg_scores).argmax()]
ecg_source_idx=[np.absolute(ecg_scores).argmax()]
elif ecg_source_idx:
ecg_exclude += ecg_source_idx[:n_max_ecg]
ica.exclude += ecg_exclude
if not eog_source_idx:
if np.absolute(eog_scores).any>0.3:
eog_exclude=[np.absolute(eog_scores).argmax()]
eog_source_idx=[np.absolute(eog_scores).argmax()]
print("No EOG components above threshold were identified " + name +
" - selecting the component with the highest score under threshold above 0.3")
elif not np.absolute(eog_scores).any>0.3:
eog_exclude=[]
print("No EOG components above threshold were identified" + name)
elif eog_source_idx:
eog_exclude += eog_source_idx
ica.exclude += eog_exclude
print('########## saving')
if len(eog_exclude) == 0:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg_none' + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 1:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 2:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 3:
ica_plot.savefig(saveRoot + name + '_comps_eog_none-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '_' + map(str, ecg_exclude)[2] + '.pdf', format = 'pdf')
elif len(eog_exclude) == 1:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg_none' + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 1:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 2:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '.pdf', format = 'pdf')
elif len(ecg_exclude) == 3:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] +
'-ecg' + map(str, ecg_exclude)[0] + '_' + map(str, ecg_exclude)[1] + '_' + map(str, ecg_exclude)[2] + '.pdf', format = 'pdf')
elif len(eog_exclude) == 2:
if len(ecg_exclude) == 0:
ica_plot.savefig(saveRoot + name + '_comps_eog' + map(str, eog_exclude)[0] + '_' + map(str, eog_exclude)[1] +
'-ecg_none' + '.pdf', format = 'pdf')
#.........这里部分代码省略.........
开发者ID:ahoejlund,项目名称:mne-python-preproc,代码行数:101,代码来源:ICA_analysisPipelineFunctions_local.py
示例13: compute_ica
def compute_ica(subject):
"""Function will compute ICA on raw and apply the ICA.
params:
subject : str
the subject id to be loaded
"""
raw = Raw(save_folder + "%s_filtered_data_mc_raw_tsss.fif" % subject,
preload=True)
# ICA Part
ica = ICA(n_components=0.95, method='fastica', max_iter=256)
picks = mne.pick_types(raw.info, meg=True, eeg=True,
stim=False, exclude='bads')
ica.fit(raw, picks=picks, decim=decim, reject=reject)
# maximum number of components to reject
n_max_ecg, n_max_eog = 3, 1
##########################################################################
# 2) identify bad components by analyzing latent sources.
title = 'Sources related to %s artifacts (red) for sub: %s'
# generate ECG epochs use detection via phase statistics
ecg_epochs = create_ecg_epochs(raw, ch_name="ECG002",
tmin=-.5, tmax=.5, picks=picks)
n_ecg_epochs_found = len(ecg_epochs.events)
sel_ecg_epochs = np.arange(0, n_ecg_epochs_found, 10)
ecg_epochs = ecg_epochs[sel_ecg_epochs]
ecg_inds, scores = ica.find_bads_ecg(ecg_epochs, method='ctps')
fig = ica.plot_scores(scores, exclude=ecg_inds,
title=title % ('ecg', subject))
fig.savefig(save_folder + "pics/%s_ecg_scores.png" % subject)
if ecg_inds:
show_picks = np.abs(scores).argsort()[::-1][:5]
fig = ica.plot_sources(raw, show_picks, exclude=ecg_inds,
title=title % ('ecg', subject), show=False)
fig.savefig(save_folder + "pics/%s_ecg_sources.png" % subject)
fig = ica.plot_components(ecg_inds, title=title % ('ecg', subject),
colorbar=True)
fig.savefig(save_folder + "pics/%s_ecg_component.png" % subject)
ecg_inds = ecg_inds[:n_max_ecg]
ica.exclude += ecg_inds
# estimate average artifact
ecg_evoked = ecg_epochs.average()
del ecg_epochs
# plot ECG sources + selection
fig = ica.plot_sources(ecg_evoked, exclude=ecg_inds)
fig.savefig(save_folder + "pics/%s_ecg_sources_ave.png" % subject)
# plot ECG cleaning
ica.plot_overlay(ecg_evoked, exclude=ecg_inds)
fig.savefig(save_folder + "pics/%s_ecg_sources_clean_ave.png" % subject)
# DETECT EOG BY CORRELATION
# HORIZONTAL EOG
eog_epochs = create_eog_epochs(raw, ch_name="EOG001")
eog_inds, scores = ica.find_bads_eog(raw)
fig = ica.plot_scores(scores, exclude=eog_inds,
title=title % ('eog', subject))
fig.savefig(save_folder + "pics/%s_eog_scores.png" % subject)
fig = ica.plot_components(eog_inds, title=title % ('eog', subject),
colorbar=True)
fig.savefig(save_folder + "pics/%s_eog_component.png" % subject)
eog_inds = eog_inds[:n_max_eog]
ica.exclude += eog_inds
del eog_epochs
##########################################################################
# Apply the solution to Raw, Epochs or Evoked like this:
raw_ica = ica.apply(raw, copy=False)
ica.save(save_folder + "%s-ica.fif" % subject) # save ICA componenets
# Save raw with ICA removed
raw_ica.save(save_folder + "%s_filtered_ica_mc_raw_tsss.fif" % subject,
overwrite=True)
plt.close("all")
开发者ID:MadsJensen,项目名称:malthe_alpha_project,代码行数:87,代码来源:filter_ICA.py
示例14: print
icacomps.exclude=[]
if not icacomps.exclude:
print('Old components copied. Exclude field cleared')
raw = mne.io.Raw(rawRoot+name+'.fif', preload=True)
ecg_picks = mne.pick_types(raw.info, meg=False, eeg=False, eog=False, ecg=True,
stim=False, exclude='bads')[0]
eog_picks = mne.pick_types(raw.info, meg=False, eeg=False, ecg=False, eog=True,
stim=False, exclude='bads')[0]
meg_picks = mne.pick_types(raw.info, meg=True, eeg=False, eog=False, ecg=False,
stim=False, exclude='bads')
ecg_epochs = create_ecg_epochs(raw, tmin=-.5, tmax=.5,picks=meg_picks, verbose=False)
#ch_name=raw.ch_names[ecg_picks].encode('UTF8'))
ecg_evoked = ecg_epochs.average()
eog_evoked = create_eog_epochs(raw, tmin=-.5, tmax=.5,picks=meg_picks,
ch_name=raw.ch_names[eog_picks].encode('UTF8'), verbose=False).average()
# ica topos
source_idx = range(0, icacomps.n_components_)
ica_plot = icacomps.plot_components(source_idx, ch_type="mag")
plt.waitforbuttonpress(1)
title = 'Sources related to %s artifacts (red)'
#ask for comps ECG
prompt = '> '
ecg_done = 'N'
eog_done = 'N'
while ecg_done.strip() != 'Y' and ecg_done.strip() != 'y':
开发者ID:ahoejlund,项目名称:mne-python-preproc,代码行数:32,代码来源:visRej.py
示例15: preprocess_ICA_fif_to_ts
def preprocess_ICA_fif_to_ts(fif_file, ECG_ch_name, EoG_ch_name, l_freq, h_freq):
# ------------------------ Import stuff ------------------------ #
import os
import mne
import sys
from mne.io import Raw
from mne.preprocessing import ICA
from mne.preprocessing import create_ecg_epochs, create_eog_epochs
from nipype.utils.filemanip import split_filename as split_f
from reportGen import generateReport
import pickle
subj_path, basename, ext = split_f(fif_file)
# -------------------- Delete later ------------------- #
subj_name = subj_path[-5:]
results_dir = subj_path[:-6]
# results_dir += '2016'
subj_path = results_dir + '/' + subj_name
if not os.path.exists(subj_path):
try:
os.makedirs(subj_path)
except OSError:
sys.stderr.write('ica_preproc: problem creating directory: ' + subj_path)
########################################################
# Read raw
# If None the compensation in the data is not modified. If set to n, e.g. 3, apply
# gradient compensation of grade n as for CTF systems (compensation=3)
print(fif_file)
print(EoG_ch_name)
# ----------------------------- end Import stuff ----------------- #
# EoG_ch_name = "EOG061, EOG062"
# ------------- Load raw ------------- #
raw = Raw(fif_file, preload=True)
# select sensors
select_sensors = mne.pick_types(raw.info, meg=True, ref_meg=False, exclude='bads')
picks_meeg = mne.pick_types(raw.info, meg=True, eeg=True, exclude='bads')
# filtering
raw.filter(l_freq=l_freq, h_freq=h_freq, picks=picks_meeg, method='iir', n_jobs=1)
# if ECG_ch_name == 'EMG063':
if ECG_ch_name in raw.info['ch_names']:
raw.set_channel_types({ECG_ch_name: 'ecg'}) # Without this files with ECG_ch_name = 'EMG063' fail
# ECG_ch_name = 'ECG063'
if EoG_ch_name == 'EMG065,EMG066,EMG067,EMG068': # Because ica.find_bads_eog... can process max 2 EoG channels
EoG_ch_name = 'EMG065,EMG067' # it won't fail if I specify 4 channels, but it'll use only first
# EMG065 and EMG066 are for vertical eye movements and
# EMG067 and EMG068 are for horizontal
# print rnk
rnk = 'N/A'
# 1) Fit ICA model using the FastICA algorithm
# Other available choices are `infomax` or `extended-infomax`
# We pass a float value between 0 and 1 to select n_components based on the
# percentage of variance explained by the PCA components.
reject = dict(mag=10e-12, grad=10000e-13)
flat = dict(mag=0.1e-12, grad=1e-13)
# check if we have an ICA, if yes, we load it
ica_filename = os.path.join(subj_path, basename + "-ica.fif")
raw_ica_filename = os.path.join(subj_path, basename + "_ica_raw.fif")
info_filename = os.path.join(subj_path, basename + "_info.pickle")
# if os.path.exists(ica_filename) == False:
ica = ICA(n_components=0.99, method='fastica') # , max_iter=500
ica.fit(raw, picks=select_sensors, reject=reject, flat=flat) # decim = 3,
# has_ICA = False
# else:
# has_ICA = True
# ica = read_ica(ica_filename)
# ica.exclude = []
# ica.labels_ = dict() # to avoid bug; Otherwise it'll throw an exception
ica_sources_filename = subj_path + '/' + basename + '_ica_timecourse.fif'
# if not os.path.isfile(ica_sources_filename):
icaSrc = ica.get_sources(raw, add_channels=None, start=None, stop=None)
icaSrc.save(ica_sources_filename, picks=None, tmin=0, tmax=None, buffer_size_sec=10,
drop_small_buffer=False, proj=False, fmt='single', overwrite=True, split_size='2GB', verbose=None)
icaSrc = None
# if has_ICA == False:
# ica.save(ica_filename)
# return
# 2) identify bad components by analyzing latent sources.
# generate ECG epochs use detection via phase statistics
# check if ECG_ch_name is in the raw channels
# import ipdb; ipdb.set_trace()
if ECG_ch_name in raw.info['ch_names']:
ecg_epochs = create_ecg_epochs(raw, tmin=-.5, tmax=.5, picks=select_sensors, ch_name=ECG_ch_name)
# if not a synthetic ECG channel is created from cross channel average
else:
ecg_epochs = create_ecg_epochs(raw, tmin=-.5, tmax=.5, picks=select_sensors)
# ICA for ECG artifact
# threshold=0.25 come defualt
ecg_inds, ecg_scores = ica.find_bads_ecg(ecg_epochs, method='ctps', threshold=0.25)
# if len(ecg_inds) > 0:
ecg_evoked = ecg_epochs.average()
ecg_epochs = None # ecg_epochs use too much memory
n_max_ecg = 3
ecg_inds = ecg_inds[:n_max_ecg]
#.........这里部分代码省略.........
开发者ID:dmalt,项目名称:ICA_clean_pipeline,代码行数:101,代码来源:ica_preproc.py
示例16: create_eog_epochs
ica.plot_sources(raw, show_picks, exclude=eog_inds, title=title % 'eog')
ica.plot_components(eog_inds, title=title % 'eog', colorbar=True)
eog_inds = eog_inds[:n_max_eog]
ica.exclude += eog_inds
###############################################################################
# 3) Assess component selection and unmixing quality
# estimate average artifact
ecg_evoked = ecg_epochs.average()
ica.plot_sources(ecg_evoked, exclude=ecg_inds) # plot ECG sources + selection
ica.plot_overlay(ecg_evoked, exclude=ecg_inds) # plot ECG cleaning
eog_evoked = create_eog_epochs(raw, tmin=-.5, tmax=.5, picks=picks).average()
ica.plot_sources(eog_evoked, exclude=eog_inds) # plot EOG sources + selection
ica.plot_overlay(eog_evoked, exclude=eog_inds) # plot EOG cleaning
# check the amplitudes do not change
ica.plot_overlay(raw) # EOG artifacts remain
###############################################################################
# To save an ICA solution you can say:
# ica.save('my_ica.fif')
# You can later load the solution by saying:
# from mne.preprocessing import read_ica
# read_ica('my_ica.fif')
开发者ID:GrantRVD,项目名称:mne-python,代码行数:29,代码来源:plot_ica_from_raw.py
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