本文整理汇总了Python中mne.decoding.GeneralizationAcrossTime类的典型用法代码示例。如果您正苦于以下问题:Python GeneralizationAcrossTime类的具体用法?Python GeneralizationAcrossTime怎么用?Python GeneralizationAcrossTime使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了GeneralizationAcrossTime类的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: quick_score
def quick_score(X, y, clf=None, scorer=None):
from sklearn.cross_validation import KFold
regression = (len(np.unique(y)) > 2) & isinstance(y[0], float)
if scorer is None:
scorer = scorer_spearman if regression else scorer_auc
if clf is None:
clf = RidgeCV(alphas=[(2 * C) ** -1 for C in [1e-4, 1e-2, 1]])\
if regression else force_predict(LogisticRegression(), axis=1)
sel = np.where(~np.isnan(y))[0]
X = X[sel, :, :]
y = y[sel]
epochs = mat2mne(X, sfreq=100)
clf = make_pipeline(StandardScaler(), clf)
cv = KFold(len(y), 5) if regression else None
gat = GeneralizationAcrossTime(clf=clf, n_jobs=-1, scorer=scorer, cv=cv)
gat.fit(epochs, y)
gat.score(epochs, y)
return gat
开发者ID:LauraGwilliams,项目名称:jr-tools,代码行数:18,代码来源:network.py
示例2: _get_data
def _get_data(tmin=-0.2, tmax=0.5, event_id=dict(aud_l=1, vis_l=3),
event_id_gen=dict(aud_l=2, vis_l=4), test_times=None):
"""Aux function for testing GAT viz."""
with warnings.catch_warnings(record=True): # deprecated
gat = GeneralizationAcrossTime()
raw = read_raw_fif(raw_fname)
raw.add_proj([], remove_existing=True)
events = read_events(event_name)
picks = pick_types(raw.info, meg='mag', stim=False, ecg=False,
eog=False, exclude='bads')
picks = picks[1:13:3]
decim = 30
# Test on time generalization within one condition
with warnings.catch_warnings(record=True):
epochs = Epochs(raw, events, event_id, tmin, tmax, picks=picks,
preload=True, decim=decim)
epochs_list = [epochs[k] for k in event_id]
equalize_epoch_counts(epochs_list)
epochs = concatenate_epochs(epochs_list)
# Test default running
with warnings.catch_warnings(record=True): # deprecated
gat = GeneralizationAcrossTime(test_times=test_times)
gat.fit(epochs)
gat.score(epochs)
return gat
开发者ID:nfoti,项目名称:mne-python,代码行数:26,代码来源:test_decoding.py
示例3: _run
def _run(epochs, events, analysis):
"""Runs temporal generalization for a given subject and analysis"""
print(subject, analysis['name'])
# subselect the trials (e.g. exclude absent trials) with a
# dataframe query defined in conditions.py
query, condition = analysis['query'], analysis['condition']
sel = range(len(events)) if query is None \
else events.query(query).index
sel = [ii for ii in sel if ~np.isnan(events[condition][sel][ii])]
# The to-be-predicted value, for each trial:
y = np.array(events[condition], dtype=np.float32)
print analysis['name'], np.unique(y[sel]), len(sel)
# Abort if there is no trial
if len(sel) == 0:
return
# Apply analysis
gat = GeneralizationAcrossTime(clf=analysis['clf'],
cv=analysis['cv'],
scorer=analysis['scorer'],
n_jobs=-1)
print(subject, analysis['name'], 'fit')
gat.fit(epochs[sel], y=y[sel])
print(subject, analysis['name'], 'score')
score = gat.score(epochs[sel], y=y[sel])
print(subject, analysis['name'], 'save')
# save space
if analysis['name'] not in ['probe_phase', 'target_circAngle']:
# we'll need the estimator trained on the probe_phase and to generalize
# to the target phase and prove that there is a significant signal.
gat.estimators_ = None
if analysis['name'] not in ['target_present', 'target_circAngle',
'probe_circAngle']:
# We need these individual prediction to control for the correlation
# between target and probe angle.
gat.y_pred_ = None
# Save analysis
save([gat, analysis, sel, events], 'decod',
subject=subject, analysis=analysis['name'], overwrite=True,
upload=True)
save([score, epochs.times], 'score',
subject=subject, analysis=analysis['name'], overwrite=True,
upload=True)
return
开发者ID:kingjr,项目名称:decoding_unconscious_maintenance,代码行数:50,代码来源:run_decoding.py
示例4: _decod
def _decod(subject, analysis):
from mne.decoding import GeneralizationAcrossTime
# if already computed let's just load it from disk
fname_kwargs = dict(subject=subject, analysis=analysis['name'] + '_vhp')
score_fname = paths('score', **fname_kwargs)
if op.exists(score_fname):
return load('score', **fname_kwargs)
epochs = _get_epochs(subject)
events = load('behavior', subject=subject)
# Let's not recompute everything, this is just a control analysis
print(subject, analysis['name'])
epochs._data = epochs.get_data()
epochs.preload = True
epochs.crop(0., .900)
epochs.decimate(2)
query, condition = analysis['query'], analysis['condition']
sel = range(len(events)) if query is None else events.query(query).index
sel = [ii for ii in sel if ~np.isnan(events[condition][sel][ii])]
y = np.array(events[condition], dtype=np.float32)
print analysis['name'], np.unique(y[sel]), len(sel)
if len(sel) == 0:
return
# Apply analysis
gat = GeneralizationAcrossTime(clf=analysis['clf'],
cv=analysis['cv'],
scorer=analysis['scorer'],
n_jobs=-1)
print(subject, analysis['name'], 'fit')
gat.fit(epochs[sel], y=y[sel])
print(subject, analysis['name'], 'score')
score = gat.score(epochs[sel], y=y[sel])
print(subject, analysis['name'], 'save')
# save space
gat.estimators_ = None
gat.y_pred_ = None
# Save analysis
save([score, epochs.times], 'score', overwrite=True, upload=True,
**fname_kwargs)
return score, epochs.times
开发者ID:kingjr,项目名称:decoding_unconscious_maintenance,代码行数:48,代码来源:run_plot_veryhighpass.py
示例5: _get_data
def _get_data():
"""Aux function for testing GAT viz"""
gat = GeneralizationAcrossTime()
raw = io.Raw(raw_fname, preload=False)
events = read_events(event_name)
picks = pick_types(raw.info, meg='mag', stim=False, ecg=False,
eog=False, exclude='bads')
picks = picks[1:13:3]
decim = 30
# Test on time generalization within one condition
with warnings.catch_warnings(record=True):
epochs = Epochs(raw, events, event_id, tmin, tmax, picks=picks,
baseline=(None, 0), preload=True, decim=decim)
# Test default running
gat = GeneralizationAcrossTime()
gat.fit(epochs)
gat.score(epochs)
return gat
开发者ID:ImmanuelSamuel,项目名称:mne-python,代码行数:19,代码来源:test_decoding.py
示例6: create_info
info = create_info(chan_names, 1, chan_types)
events = np.c_[np.cumsum(np.ones(n_trial)), np.zeros(n_trial), np.zeros(n_trial)]
epochs = EpochsArray(data, info, events)
# RUN GAT ======================================================================
# SVR
# --- fit & predict separately
cos = lambda angles: np.cos(angle2circle(angles))
sin = lambda angles: np.sin(angle2circle(angles))
gats = list()
for transform in [cos, sin]:
scaler = StandardScaler()
svr = SVR(C=1, kernel='linear')
clf = Pipeline([('scaler', scaler), ('svr', svr)])
gat = GeneralizationAcrossTime(n_jobs=-1, clf=clf)
gat.fit(epochs, y=transform(trial_angles))
gat.predict(epochs)
gats.append(gat)
# --- recombine
predict_angles, true_angles = recombine_svr_prediction(gats[0], gats[1])
# --- score
angle_errors_svr = compute_error_svr(predict_angles, true_angles)
plt.matshow(np.mean(angle_errors_svr,axis=2)), plt.colorbar(), plt.show()
# SVC Gat
scaler = StandardScaler()
svc = SVC(C=1, kernel='linear', probability=True)
clf = Pipeline([('scaler', scaler), ('svc', svc)])
gat = GeneralizationAcrossTime(n_jobs=-1, clf=clf, predict_type='predict_proba')
开发者ID:SherazKhan,项目名称:Paris_orientation-decoding,代码行数:31,代码来源:example_toy_data2.py
示例7: range
# Create epochs to use for classification
n_trial, n_chan, n_time = X.shape
events = np.vstack((range(n_trial), np.zeros(n_trial, int), y.astype(int))).T
chan_names = ['MEG %i' % chan for chan in range(n_chan)]
chan_types = ['mag'] * n_chan
sfreq = 250
info = create_info(chan_names, sfreq, chan_types)
epochs = EpochsArray(data=X, info=info, events=events, verbose=False)
epochs.times = selected_times[:n_time]
# make classifier
clf = LogisticRegression(C=0.0001)
# fit model and score
gat = GeneralizationAcrossTime(
clf=clf, scorer="roc_auc", cv=cv, predict_method="predict")
gat.fit(epochs, y=y)
gat.score(epochs, y=y)
# Save model
joblib.dump(gat, data_path + "decode_time_gen/gat_ge.jl")
# make matrix plot and save it
fig = gat.plot(
cmap="viridis", title="Temporal Gen (Classic vs planning) for Global Eff.")
fig.savefig(data_path + "decode_time_gen/gat_matrix_ge.png")
fig = gat.plot_diagonal(
chance=0.5, title="Temporal Gen (Classic vs planning) for Global eff.")
fig.savefig(data_path + "decode_time_gen/gat_diagonal_ge.png")
开发者ID:MadsJensen,项目名称:RP_scripts,代码行数:30,代码来源:sk_sliding_trans_bin.py
示例8: test_circular_classifiers
def test_circular_classifiers():
from mne.decoding import GeneralizationAcrossTime
from ..scorers import scorer_angle
from sklearn.linear_model import Ridge, RidgeCV
epochs, angles = make_circular_data()
clf_list = [PolarRegression, AngularRegression,
SVR_polar, SVR_angle] # XXX will be deprecated
for clf_init in clf_list:
for independent in [False, True]:
if clf_init in [SVR_polar, SVR_angle]:
if (not independent):
continue
clf = clf_init(clf=Ridge(random_state=0))
else:
clf = clf_init(clf=Ridge(random_state=0),
independent=independent)
print clf_init, independent
gat = GeneralizationAcrossTime(clf=clf, scorer=scorer_angle)
gat.fit(epochs, y=angles)
gat.predict(epochs)
gat.score(y=angles)
assert_true(np.abs(gat.scores_[0][0]) < .5) # chance level
assert_true(gat.scores_[1][1] > 1.) # decode
assert_true(gat.scores_[2][2] > 1.) # decode
assert_true(gat.scores_[1][2] < -1.) # anti-generalize
# Test args
gat = GeneralizationAcrossTime(clf=RidgeCV(alphas=[1., 2.]),
scorer=scorer_angle)
gat.fit(epochs, y=angles)
gat = GeneralizationAcrossTime(clf=RidgeCV(), scorer=scorer_angle)
gat.fit(epochs, y=angles)
开发者ID:LauraGwilliams,项目名称:jr-tools,代码行数:31,代码来源:test_clf.py
示例9: StratifiedKFold
cv = StratifiedKFold(n_splits=10, shuffle=True)
# Create epochs to use for classification
n_trial, n_chan, n_time = X.shape
events = np.vstack((range(n_trial), np.zeros(n_trial, int), y.astype(int))).T
chan_names = ['MEG %i' % chan for chan in range(n_chan)]
chan_types = ['mag'] * n_chan
sfreq = 250
info = create_info(chan_names, sfreq, chan_types)
epochs = EpochsArray(data=X, info=info, events=events, verbose=False)
epochs.times = selected_times[:n_time]
epochs.crop(-3.8, None)
# fit model and score
gat = GeneralizationAcrossTime(
scorer="accuracy", cv=cv, predict_method="predict")
gat.fit(epochs, y=y)
gat.score(epochs, y=y)
# Save model
joblib.dump(gat, data_path + "decode_time_gen/%s_gat_tr.jl" % subject)
# make matrix plot and save it
fig = gat.plot(
cmap="viridis",
title="Temporal Gen (Classic vs planning) for transitivity.")
fig.savefig(data_path + "decode_time_gen/%s_gat_matrix_tr.png" % subject)
fig = gat.plot_diagonal(
chance=0.5, title="Temporal Gen (Classic vs planning) for transitivity")
fig.savefig(data_path + "decode_time_gen/%s_gat_diagonal_tr.png" % subject)
开发者ID:MadsJensen,项目名称:RP_scripts,代码行数:32,代码来源:sk_sliding_trans_bin_epo.py
示例10: test_generalization_across_time
def test_generalization_across_time():
"""Test time generalization decoding
"""
from sklearn.svm import SVC
from sklearn.preprocessing import LabelEncoder
from sklearn.metrics import mean_squared_error
raw = io.Raw(raw_fname, preload=False)
events = read_events(event_name)
picks = pick_types(raw.info, meg='mag', stim=False, ecg=False,
eog=False, exclude='bads')
picks = picks[0:2]
decim = 30
# Test on time generalization within one condition
with warnings.catch_warnings(record=True):
epochs = Epochs(raw, events, event_id, tmin, tmax, picks=picks,
baseline=(None, 0), preload=True, decim=decim)
# Test default running
gat = GeneralizationAcrossTime()
assert_equal("<GAT | no fit, no prediction, no score>", "%s" % gat)
assert_raises(ValueError, gat.fit, epochs, picks='foo')
with warnings.catch_warnings(record=True):
# check classic fit + check manual picks
gat.fit(epochs, picks=[0])
# check optional y as array
gat.fit(epochs, y=epochs.events[:, 2])
# check optional y as list
gat.fit(epochs, y=epochs.events[:, 2].tolist())
assert_equal(len(gat.picks_), len(gat.ch_names), 1)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), no "
"prediction, no score>", '%s' % gat)
assert_equal(gat.ch_names, epochs.ch_names)
gat.predict(epochs)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predicted 14 epochs, no score>",
"%s" % gat)
gat.score(epochs)
gat.score(epochs, y=epochs.events[:, 2])
gat.score(epochs, y=epochs.events[:, 2].tolist())
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predicted 14 epochs,\n scored "
"(accuracy_score)>", "%s" % gat)
with warnings.catch_warnings(record=True):
gat.fit(epochs, y=epochs.events[:, 2])
old_mode = gat.predict_mode
gat.predict_mode = 'super-foo-mode'
assert_raises(ValueError, gat.predict, epochs)
gat.predict_mode = old_mode
gat.score(epochs, y=epochs.events[:, 2])
assert_true("accuracy_score" in '%s' % gat.scorer_)
epochs2 = epochs.copy()
# check _DecodingTime class
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.047 (s), length: 0.047 (s), n_time_windows: 15>",
"%s" % gat.train_times)
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.047 (s), length: 0.047 (s), n_time_windows: 15 x 15>",
"%s" % gat.test_times_)
# the y-check
gat.predict_mode = 'mean-prediction'
epochs2.events[:, 2] += 10
gat_ = copy.deepcopy(gat)
assert_raises(ValueError, gat_.score, epochs2)
gat.predict_mode = 'cross-validation'
# Test basics
# --- number of trials
assert_true(gat.y_train_.shape[0] ==
gat.y_true_.shape[0] ==
len(gat.y_pred_[0][0]) == 14)
# --- number of folds
assert_true(np.shape(gat.estimators_)[1] == gat.cv)
# --- length training size
assert_true(len(gat.train_times['slices']) == 15 ==
np.shape(gat.estimators_)[0])
# --- length testing sizes
assert_true(len(gat.test_times_['slices']) == 15 ==
np.shape(gat.scores_)[0])
assert_true(len(gat.test_times_['slices'][0]) == 15 ==
np.shape(gat.scores_)[1])
# Test longer time window
gat = GeneralizationAcrossTime(train_times={'length': .100})
with warnings.catch_warnings(record=True):
gat2 = gat.fit(epochs)
assert_true(gat is gat2) # return self
assert_true(hasattr(gat2, 'cv_'))
assert_true(gat2.cv_ != gat.cv)
scores = gat.score(epochs)
assert_true(isinstance(scores, list)) # type check
assert_equal(len(scores[0]), len(scores)) # shape check
assert_equal(len(gat.test_times_['slices'][0][0]), 2)
# Decim training steps
gat = GeneralizationAcrossTime(train_times={'step': .100})
#.........这里部分代码省略.........
开发者ID:XristosK,项目名称:mne-python,代码行数:101,代码来源:test_time_gen.py
示例11: StratifiedKFold
###############################################################################
# Generalization Across Time
# --------------------------
#
# This runs the analysis used in [1]_ and further detailed in [2]_
#
# Here we'll use a stratified cross-validation scheme.
# make response vector
y = np.zeros(len(epochs.events), dtype=int)
y[epochs.events[:, 2] == 3] = 1
cv = StratifiedKFold(y=y) # do a stratified cross-validation
# define the GeneralizationAcrossTime object
gat = GeneralizationAcrossTime(predict_mode="cross-validation", n_jobs=1, cv=cv, scorer=roc_auc_score)
# fit and score
gat.fit(epochs, y=y)
gat.score(epochs)
# let's visualize now
gat.plot()
gat.plot_diagonal()
###############################################################################
# Exercise
# --------
# - Can you improve the performance using full epochs and a common spatial
# pattern (CSP) used by most BCI systems?
# - Explore other datasets from MNE (e.g. Face dataset from SPM to predict
开发者ID:nwilming,项目名称:mne-python,代码行数:30,代码来源:plot_sensors_decoding.py
示例12: GeneralizationAcrossTime
decim = 2 # decimate to make the example faster to run
epochs = mne.Epochs(raw, events, event_id, -0.050, 0.400, proj=True,
picks=picks, baseline=None, preload=True,
reject=dict(mag=5e-12), decim=decim, verbose=False)
# We will train the classifier on all left visual vs auditory trials
# and test on all right visual vs auditory trials.
# In this case, because the test data is independent from the train data,
# we test the classifier of each fold and average the respective predictions.
# Define events of interest
triggers = epochs.events[:, 2]
viz_vs_auditory = np.in1d(triggers, (1, 2)).astype(int)
gat = GeneralizationAcrossTime(predict_mode='mean-prediction', n_jobs=1)
# For our left events, which ones are visual?
viz_vs_auditory_l = (triggers[np.in1d(triggers, (1, 3))] == 3).astype(int)
# To make scikit-learn happy, we converted the bool array to integers
# in the same line. This results in an array of zeros and ones:
print("The unique classes' labels are: %s" % np.unique(viz_vs_auditory_l))
gat.fit(epochs[('AudL', 'VisL')], y=viz_vs_auditory_l)
# For our right events, which ones are visual?
viz_vs_auditory_r = (triggers[np.in1d(triggers, (2, 4))] == 4).astype(int)
gat.score(epochs[('AudR', 'VisR')], y=viz_vs_auditory_r)
gat.plot(
title="Generalization Across Time (visual vs auditory): left to right")
开发者ID:ImmanuelSamuel,项目名称:mne-python,代码行数:31,代码来源:plot_decoding_time_generalization_conditions.py
示例13: range
query, condition = analysis['query'], analysis['condition']
sel = range(len(events)) if query is None \
else events.query(query).index
sel = [ii for ii in sel if ~np.isnan(events[condition][sel][ii])]
y = np.array(events[condition], dtype=np.float32)
print analysis['name'], np.unique(y[sel]), len(sel)
if len(sel) == 0:
logger.warning('%s: no epoch in %s for %s.' % (
subject, data_type, analysis['name']))
continue
# Apply analysis
gat = GeneralizationAcrossTime(clf=analysis['clf'],
cv=analysis['cv'],
scorer=analysis['scorer'],
n_jobs=-1)
gat.fit(epochs[sel], y=y[sel])
gat.score(epochs[sel], y=y[sel])
# Save analysis
pkl_fname = paths('decod', subject=subject, data_type=data_type,
analysis=analysis['name'], log=True)
# Save classifier results
with open(pkl_fname, 'wb') as f:
pickle.dump([gat, analysis, sel, events], f)
# Plot
fig = gat.plot_diagonal(show=False)
report.add_figs_to_section(fig, ('%s %s %s: (diagonal)' %
开发者ID:SherazKhan,项目名称:Paris_orientation-decoding,代码行数:32,代码来源:run_decoding.py
示例14: print
print(__doc__)
# Preprocess data
data_path = spm_face.data_path()
# Load and filter data, set up epochs
raw_fname = data_path + '/MEG/spm/SPM_CTF_MEG_example_faces%d_3D_raw.fif'
raw = mne.io.Raw(raw_fname % 1, preload=True) # Take first run
picks = mne.pick_types(raw.info, meg=True, exclude='bads')
raw.filter(1, 45, method='iir')
events = mne.find_events(raw, stim_channel='UPPT001')
event_id = {"faces": 1, "scrambled": 2}
tmin, tmax = -0.1, 0.5
decim = 4 # decimate to make the example faster to run
epochs = mne.Epochs(raw, events, event_id, tmin, tmax, proj=True,
picks=picks, baseline=None, preload=True,
reject=dict(mag=1.5e-12), decim=decim, verbose=False)
# Define decoder. The decision function is employed to use cross-validation
gat = GeneralizationAcrossTime(predict_mode='cross-validation', n_jobs=1)
# fit and score
gat.fit(epochs)
gat.score(epochs)
gat.plot(vmin=0.1, vmax=0.9,
title="Generalization Across Time (faces vs. scrambled)")
gat.plot_diagonal() # plot decoding across time (correspond to GAT diagonal)
开发者ID:Famguy,项目名称:mne-python,代码行数:30,代码来源:plot_decoding_time_generalization.py
示例15: len
# decoding
epochs = epochs.decimate(decim)
n_tr = len(epochs.times)
X = epochs[stim_list>0]
y = stim_list[stim_list>0]
# SVM parameters
scaler = StandardScaler() # centers data by removing the mean and scales to unit variance
# model = svm.SVC(C=1, kernel='linear', class_weight='auto')
model = svm.LinearSVC(C=1, multi_class='ovr', class_weight='auto')
clf = make_pipeline(scaler, model)
cv = StratifiedKFold(y, n_fold)
gat = GeneralizationAcrossTime(
cv=cv,
clf=clf,
predict_mode='cross-validation',
n_jobs=n_jobs,
# train_times=dict(step=step, length=length)
)
gat.fit(X, y)
# score = gat.score(X, y)
# gat.plot(vmin=.2, vmax=.3)
# gat.plot_diagonal(chance=.25)
#######################################################################################################
# now for the rsvp data
fname = op.join(data_path, 'abse_' + subject + '_main.mat')
epochs = sm_fieldtrip2mne(fname)
n_trial = len(epochs)
开发者ID:sebastienmarti,项目名称:ABSE,代码行数:31,代码来源:abse_decod.py
示例16: LogisticRegression
# decimate data
decim = 2
epochs.decimate(decim)
# only keep data > 0 ms & < 400 ms
epochs.crop(-.100, .750)
######################################################################
# Decoding
# set up a classifier based on a regularized Logistic Regression
clf = LogisticRegression(C=1)
# force the classifer to output a probabilistic prediction
clf = force_predict(clf, axis=1)
# insert a z-score normalization step before the classification
clf = make_pipeline(StandardScaler(), clf)
# initialize the GAT object
gat = GeneralizationAcrossTime(clf=clf, scorer=scorer_auc, n_jobs=-1,
cv=10)
# select the trials where a target is presented
for contrast in ['HL', 'EU', 'PR']:
epochs_ = concatenate_epochs((epochs[contrast[0]],
epochs[contrast[1]]))
y = np.hstack((np.zeros(len(epochs[contrast[0]])),
np.ones(len(epochs[contrast[1]]))))
gat.fit(epochs_, y=y)
fname = op.join(data_path, 's%i_%s_fit.pkl' % (subject, contrast))
with open(fname, 'wb') as f:
pickle.dump(gat, f)
# TODO: should save y_pred separately
# predict + score
scores = gat.score(epochs_, y=y)
开发者ID:kingjr,项目名称:simon_unconscious_prediction,代码行数:32,代码来源:run_decoding.py
示例17: len
sel = np.where(sel)[0]
# reduce number or trials if too many XXX just for speed, remove
if len(sel) > 400:
import random
random.shuffle(sel)
sel = sel[0:400]
y = np.array(events[cond_name].tolist())
# Apply contrast
if clf_type['name']=='SVC':
decoding_parameters = decoding_params[0]['values']
elif clf_type['name']=='SVR':
decoding_parameters = decoding_params[1]['values']
gat = GeneralizationAcrossTime(**decoding_parameters)
gat.fit(epochs[sel], y=y[sel])
gat.score(epochs[sel], y=y[sel])
# Plot
fig = gat.plot_diagonal(show=False)
report.add_figs_to_section(fig,
('%s %s: (decoding)' % (subject, cond_name)), subject)
fig = gat.plot(show=False)
report.add_figs_to_section(fig,
('%s %s: GAT' % (subject, cond_name)), subject)
# Save contrast
pkl_fname = op.join(data_path, subject, 'mvpas',
'{}-decod_{}_{}{}.pickle'.format(subject, cond_name,clf_type['name'],fname_appendix))
开发者ID:SherazKhan,项目名称:Paris_orientation-decoding,代码行数:31,代码来源:script.py
示例18: GeneralizationAcrossTime
mne.equalize_channels([epochs_classic, epochs_plan])
mne.epochs.equalize_epoch_counts([epochs_classic, epochs_plan])
# Dirty hack # TODO: Check this from the Maxfilter side
# epochs_classic.info['dev_head_t'] = epochs_plan.info['dev_head_t']
epochs = mne.concatenate_epochs([epochs_classic, epochs_plan])
# Crop and downsmample to make it faster
epochs.crop(tmin=-3.5, tmax=0)
epochs.resample(250)
# Setup the y vector and GAT
y = np.concatenate(
(np.zeros(len(epochs["press"])), np.ones(len(epochs["plan"]))))
gat = GeneralizationAcrossTime(
predict_mode='mean-prediction', scorer="roc_auc", n_jobs=1)
# Fit model
# Scoring and visualise result
gat.score(epochs, y=y)
# Save model
joblib.dump(gat, data_path + "decode_time_gen/%s_gat_2.jl" % subject)
fig = gat.plot(
title="Temporal Gen (Classic vs planning): left to right sub: %s" %
subject)
fig.savefig(data_path + "decode_time_gen/%s_gat_matrix_2.png" % subject)
开发者ID:MadsJensen,项目名称:RP_scripts,代码行数:30,代码来源:time_gen_decoding.py
示例19: test_generalization_across_time
def test_generalization_across_time():
"""Test time generalization decoding
"""
from sklearn.svm import SVC
from sklearn.linear_model import RANSACRegressor, LinearRegression
from sklearn.preprocessing import LabelEncoder
from sklearn.metrics import mean_squared_error
from sklearn.cross_validation import LeaveOneLabelOut
epochs = make_epochs()
# Test default running
gat = GeneralizationAcrossTime(picks='foo')
assert_equal("<GAT | no fit, no prediction, no score>", "%s" % gat)
assert_raises(ValueError, gat.fit, epochs)
with warnings.catch_warnings(record=True):
# check classic fit + check manual picks
gat.picks = [0]
gat.fit(epochs)
# check optional y as array
gat.picks = None
gat.fit(epochs, y=epochs.events[:, 2])
# check optional y as list
gat.fit(epochs, y=epochs.events[:, 2].tolist())
assert_equal(len(gat.picks_), len(gat.ch_names), 1)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), no "
"prediction, no score>", '%s' % gat)
assert_equal(gat.ch_names, epochs.ch_names)
gat.predict(epochs)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predicted 14 epochs, no score>",
"%s" % gat)
gat.score(epochs)
gat.score(epochs, y=epochs.events[:, 2])
gat.score(epochs, y=epochs.events[:, 2].tolist())
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predicted 14 epochs,\n scored "
"(accuracy_score)>", "%s" % gat)
with warnings.catch_warnings(record=True):
gat.fit(epochs, y=epochs.events[:, 2])
old_mode = gat.predict_mode
gat.predict_mode = 'super-foo-mode'
assert_raises(ValueError, gat.predict, epochs)
gat.predict_mode = old_mode
gat.score(epochs, y=epochs.events[:, 2])
assert_true("accuracy_score" in '%s' % gat.scorer_)
epochs2 = epochs.copy()
# check _DecodingTime class
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.050 (s), length: 0.050 (s), n_time_windows: 15>",
"%s" % gat.train_times_)
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.050 (s), length: 0.050 (s), n_time_windows: 15 x 15>",
"%s" % gat.test_times_)
# the y-check
gat.predict_mode = 'mean-prediction'
epochs2.events[:, 2] += 10
gat_ = copy.deepcopy(gat)
assert_raises(ValueError, gat_.score, epochs2)
gat.predict_mode = 'cross-validation'
# Test basics
# --- number of trials
assert_true(gat.y_train_.shape[0] ==
gat.y_true_.shape[0] ==
len(gat.y_pred_[0][0]) == 14)
# --- number of folds
assert_true(np.shape(gat.estimators_)[1] == gat.cv)
# --- length training size
assert_true(len(gat.train_times_['slices']) == 15 ==
np.shape(gat.estimators_)[0])
# --- length testing sizes
assert_true(len(gat.test_times_['slices']) == 15 ==
np.shape(gat.scores_)[0])
assert_true(len(gat.test_times_['slices'][0]) == 15 ==
np.shape(gat.scores_)[1])
# Test longer time window
gat = GeneralizationAcrossTime(train_times={'length': .100})
with warnings.catch_warnings(record=True):
gat2 = gat.fit(epochs)
assert_true(gat is gat2) # return self
assert_true(hasattr(gat2, 'cv_'))
assert_true(gat2.cv_ != gat.cv)
scores = gat.score(epochs)
assert_true(isinstance(scores, list)) # type check
assert_equal(len(scores[0]), len(scores)) # shape check
assert_equal(len(gat.test_times_['slices'][0][0]), 2)
# Decim training steps
gat = GeneralizationAcrossTime(train_times={'step': .100})
with warnings.catch_warnings(record=True):
gat.fit(epochs)
gat.score(epochs)
assert_true(len(gat.scores_) == len(gat.estimators_) == 8) # training time
#.........这里部分代码省略.........
开发者ID:Famguy,项目名称:mne-python,代码行数:101,代码来源:test_time_gen.py
示例20: test_generalization_across_time
def test_generalization_across_time():
"""Test time generalization decoding
"""
from sklearn.svm import SVC
raw = io.Raw(raw_fname, preload=False)
events = read_events(event_name)
picks = pick_types(raw.info, meg='mag', stim=False, ecg=False,
eog=False, exclude='bads')
picks = picks[0:2]
decim = 30
# Test on time generalization within one condition
with warnings.catch_warnings(record=True):
epochs = Epochs(raw, events, event_id, tmin, tmax, picks=picks,
baseline=(None, 0), preload=True, decim=decim)
# Test default running
gat = GeneralizationAcrossTime()
assert_equal("<GAT | no fit, no prediction, no score>", "%s" % gat)
with warnings.catch_warnings(record=True):
gat.fit(epochs)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), no "
"prediction, no score>", '%s' % gat)
gat.predict(epochs)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predict_type : 'predict' on 15 epochs, no score>",
"%s" % gat)
gat.score(epochs)
assert_equal("<GAT | fitted, start : -0.200 (s), stop : 0.499 (s), "
"predict_type : 'predict' on 15 epochs,\n scored "
"(accuracy_score)>", "%s" % gat)
with warnings.catch_warnings(record=True):
gat.fit(epochs, y=epochs.events[:, 2])
old_type = gat.predict_type
gat.predict_type = 'foo'
assert_raises(ValueError, gat.predict, epochs)
gat.predict_type = old_type
old_mode = gat.predict_mode
gat.predict_mode = 'super-foo-mode'
assert_raises(ValueError, gat.predict, epochs)
gat.predict_mode = old_mode
gat.score(epochs, y=epochs.events[:, 2])
assert_true("accuracy_score" in '%s' % gat.scorer_)
epochs2 = epochs.copy()
# check _DecodingTime class
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.047 (s), length: 0.047 (s), n_time_windows: 15>",
"%s" % gat.train_times)
assert_equal("<DecodingTime | start: -0.200 (s), stop: 0.499 (s), step: "
"0.047 (s), length: 0.047 (s), n_time_windows: 15 x 15>",
"%s" % gat.test_times_)
# the y-check
gat.predict_mode = 'mean-prediction'
epochs2.events[:, 2] += 10
assert_raises(ValueError, gat.score, epochs2)
gat.predict_mode = 'cross-validation'
# Test basics
# --- number of trials
assert_true(gat.y_train_.shape[0] ==
gat.y_true_.shape[0] ==
gat.y_pred_.shape[2] == 14)
# --- number of folds
assert_true(np.shape(gat.estimators_)[1] == gat.cv)
# --- length training size
assert_true(len(gat.train_times['slices']) == 15 ==
np.shape(gat.estimators_)[0])
# --- length testing sizes
assert_true(len(gat.test_times_['slices']) == 15 ==
np.shape(gat.scores_)[0])
assert_true(len(gat.test_times_['slices'][0]) == 15 ==
np.shape(gat.scores_)[1])
# Test longer time window
gat = GeneralizationAcrossTime(train_times={'length': .100})
with warnings.catch_warnings(record=True):
gat2 = gat.fit(epochs)
assert_true(gat is gat2) # return self
assert_true(hasattr(gat2, 'cv_'))
assert_true(gat2.cv_ != gat.cv)
scores = gat.score(epochs)
assert_true(isinstance(scores, list)) # type check
assert_equal(len(scores[0]), len(scores)) # shape check
assert_equal(len(gat.test_times_['slices'][0][0]), 2)
# Decim training steps
gat = GeneralizationAcrossTime(train_times={'step': .100})
with warnings.catch_warnings(record=True):
gat.fit(epochs)
gat.score(epochs)
assert_equal(len(gat.scores_), 8)
# Test start stop training
gat = GeneralizationAcrossTime(train_times={'start': 0.090,
#.........这里部分代码省略.........
开发者ID:pombreda,项目名称:mne-python,代码行数:101,代码来源:test_time_gen.py
注:本文中的mne.decoding.GeneralizationAcrossTime类示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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