def __init__(self):
"""
Initialise the structural information, coupling function, and monitors.
"""
# Initialise some Monitors with period in physical time
raw = monitors.Raw()
gavg = monitors.GlobalAverage(period=2 ** -2)
subsamp = monitors.SubSample(period=2 ** -2)
tavg = monitors.TemporalAverage(period=2 ** -2)
# DON'T load a projection because it'll make this behave like it
# has a surface and do very, very bad things
eeg = monitors.EEG(sensors=SensorsEEG(load_file="eeg_brainstorm_65.txt"),
period=2 ** -2)
eeg2 = monitors.EEG(sensors=SensorsEEG(load_file="eeg_brainstorm_65.txt"),
period=2 ** -2,
reference='Fp2') # EEG with a reference electrode
meg = monitors.MEG(sensors=SensorsMEG(load_file='meg_brainstorm_276.txt'),
period=2 ** -2)
self.monitors = (raw, gavg, subsamp, tavg, eeg, eeg2, meg)
self.method = None
self.sim = None
def __init__(self):
"""
Initialise the structural information, coupling function, and monitors.
"""
# Initialise some Monitors with period in physical time
raw = monitors.Raw()
gavg = monitors.GlobalAverage(period=2 ** -2)
subsamp = monitors.SubSample(period=2 ** -2)
tavg = monitors.TemporalAverage(period=2 ** -2)
eeg = monitors.EEG(load_default=True, period=2 ** -2)
eeg2 = monitors.EEG(load_default=True, period=2 ** -2, reference='Fp2') # EEG with a reference electrode
meg = monitors.MEG(load_default=True, period=2 ** -2)
self.monitors = (raw, gavg, subsamp, tavg, eeg, eeg2, meg)
self.method = None
self.sim = None
def setup_method(self):
oscillator = models.Generic2dOscillator()
white_matter = connectivity.Connectivity(load_file='connectivity_' +
str(self.n_regions) + '.zip')
white_matter.speed = numpy.array([self.speed])
white_matter_coupling = coupling.Difference(a=self.coupling_a)
heunint = integrators.HeunStochastic(
dt=2**-4, noise=noise.Additive(nsig=numpy.array([
2**-10,
])))
mons = (
monitors.EEG(projection=ProjectionMatrix(
load_file='projection_eeg_65_surface_16k.npy'),
sensors=SensorsEEG(load_file="eeg_brainstorm_65.txt"),
period=self.period),
monitors.MEG(
projection=ProjectionMatrix(
load_file='projection_meg_276_surface_16k.npy'),
sensors=SensorsMEG(load_file='meg_brainstorm_276.txt'),
period=self.period),
monitors.iEEG(projection=ProjectionMatrix(
load_file='projection_seeg_588_surface_16k.npy'),
sensors=SensorsInternal(load_file='seeg_588.txt'),
period=self.period),
)
local_coupling_strength = numpy.array([2**-10])
region_mapping = RegionMapping(load_file='regionMapping_16k_' +
str(self.n_regions) + '.txt')
default_cortex = Cortex(
region_mapping_data=region_mapping, load_file="cortex_16384.zip"
) #region_mapping_file="regionMapping_16k_192.txt")
default_cortex.coupling_strength = local_coupling_strength
self.sim = simulator.Simulator(model=oscillator,
connectivity=white_matter,
coupling=white_matter_coupling,
integrator=heunint,
monitors=mons,
surface=default_cortex)
self.sim.configure()
def test_monitor_meg(self):
monitor = monitors.MEG()
assert monitor.period == self.default_period
def test_monitor_meg(self):
monitor = monitors.MEG()
self.assertEqual(monitor.period, self.default_period)
