Beispiel #1
0
                    linewidth=20,
                    suppress=True  # print small results as 0
                    )

D = loadmat('test/testSignal')

sr = float(D['Fs'][0][0])
s = D['signal'][0]  # analytical signal (generated in matlab)

s = s[:10]

# plt.plot(real(s))

zp1 = Zparam(0.00001, 0, -2.0, 0, 0, 1)
zp2 = Zparam(-0.4, 1.75, -1.25, 0, 0, 1)

n1 = GrFNN(zp1, name='L1', frequency_range=(1., 4.), num_oscs=5, z0=0.5+0.5j, stimulus_conn_type='active')
n2 = GrFNN(zp2, name='L2', frequency_range=(1., 4.), num_oscs=5, z0=0.5+0.5j)

# C = np.eye(len(n1.f), len(n2.f))
C = make_connections(n1, n2, 1., 1.005)

M = Model()
M.add_layer(n1, input_channel=0)
M.add_layer(n2)

M.connect_layers(n1, n2, C, connection_type='2freq',
                 self_connect=False  # to match connectAdd.m
                 )

M.run(s, np.arange(len(s), dtype=float)/sr, 1./sr)
Beispiel #2
0
# s = s[:10]

# plt.plot(real(s))

num_oscs = 100

zp1 = Zparam(0.00001, 0, -2.0, 0, 0, 1)
zp2 = Zparam(-0.4, 1.75, -1.25, 0, 0, 1)

# n1 = GrFNN(zp1, name='L1', frequency_range=(1., 4.), num_oscs=num_oscs, z0=0.5+0.5j, stimulus_conn_type='active')
# n2 = GrFNN(zp2, name='L2', frequency_range=(1., 4.), num_oscs=num_oscs, z0=0.5+0.5j)
n1 = GrFNN(zp1, name='L1', frequency_range=(1., 4.), num_oscs=num_oscs, stimulus_conn_type='active')
n2 = GrFNN(zp2, name='L2', frequency_range=(1., 4.), num_oscs=num_oscs)


M = Model()
M.add_layer(n1, input_channel=0)
M.add_layer(n2)


# Connections
modes = [1/3, 1/2, 1/1, 2/1, 3/1]
amps  = [1,   1,   1,   1,   1  ]

C11 = make_connections(n1, n1, 1.0,  1.05, modes=modes, mode_amps=amps)
C12 = make_connections(n1, n2, 1.0,  1.05, modes=modes, mode_amps=amps)
C22 = make_connections(n2, n2, 1.0,  1.05, modes=modes, mode_amps=amps)
C21 = make_connections(n2, n1, 1.0,  1.05, modes=modes, mode_amps=amps)

c11 = M.connect_layers(n1, n1, C11, '2freq', weight=.10)
c12 = M.connect_layers(n1, n2, C12, '2freq', weight=.40)