Python _chirp_phase示例

示例#1

文件： test_waveforms.py 项目： richardxy/scipy3

 def test_linear_freq_01(self):
     method = 'linear'
     f0 = 1.0
     f1 = 2.0
     t1 = 1.0
     t = np.linspace(0, t1, 100)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_linear(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#2

文件： test_waveforms.py 项目： richardxy/scipy3

 def test_quadratic_freq_02(self):
     method = 'quadratic'
     f0 = 20.0
     f1 = 10.0
     t1 = 10.0
     t = np.linspace(0, t1, 2000)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_quadratic(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#3

文件： test_waveforms.py 项目： shivavijayreddypinreddy/pox-stuff

 def test_quadratic_freq_02(self):
     method = 'quadratic'
     f0 = 20.0
     f1 = 10.0
     t1 = 10.0
     t = np.linspace(0, t1, 2000)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_quadratic(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#4

文件： test_waveforms.py 项目： richardxy/scipy3

 def test_logarithmic_freq_03(self):
     method = 'logarithmic'
     f0 = 100.0
     f1 = 100.0
     t1 = 10.0
     t = np.linspace(0, t1, 10000)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_geometric(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#5

文件： test_waveforms.py 项目： shivavijayreddypinreddy/pox-stuff

 def test_linear_freq_01(self):
     method = 'linear'
     f0 = 1.0
     f1 = 2.0
     t1 = 1.0
     t = np.linspace(0, t1, 100)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_linear(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#6

文件： test_waveforms.py 项目： shivavijayreddypinreddy/pox-stuff

 def test_logarithmic_freq_03(self):
     method = 'logarithmic'
     f0 = 100.0
     f1 = 100.0
     t1 = 10.0
     t = np.linspace(0, t1, 10000)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_geometric(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#7

文件： test_waveforms.py 项目： alfonsodiecko/PYTHON_DIST

 def test_hyperbolic_freq_01(self):
     method = "hyperbolic"
     f0 = 10.0
     f1 = 1.0
     t1 = 1.0
     t = np.linspace(0, t1, 10000)
     phase = waveforms._chirp_phase(t, f0, t1, f1, method)
     tf, f = compute_frequency(t, phase)
     abserr = np.max(np.abs(f - chirp_hyperbolic(tf, f0, f1, t1)))
     assert_(abserr < 1e-6)

示例#8

文件： test_waveforms.py 项目： shivavijayreddypinreddy/pox-stuff

 def test_hyperbolic_freq_01(self):
     method = 'hyperbolic'
     t1 = 1.0
     t = np.linspace(0, t1, 10000)
     #           f0     f1
     cases = [[10.0, 1.0], [1.0, 10.0], [-10.0, -1.0], [-1.0, -10.0]]
     for f0, f1 in cases:
         phase = waveforms._chirp_phase(t, f0, t1, f1, method)
         tf, f = compute_frequency(t, phase)
         expected = chirp_hyperbolic(tf, f0, f1, t1)
         assert_allclose(f, expected)

示例#9

文件： test_waveforms.py 项目： BranYang/scipy

 def test_hyperbolic_freq_01(self):
     method = 'hyperbolic'
     t1 = 1.0
     t = np.linspace(0, t1, 10000)
     #           f0     f1
     cases = [[10.0, 1.0],
              [1.0, 10.0],
              [-10.0, -1.0],
              [-1.0, -10.0]]
     for f0, f1 in cases:
         phase = waveforms._chirp_phase(t, f0, t1, f1, method)
         tf, f = compute_frequency(t, phase)
         expected = chirp_hyperbolic(tf, f0, f1, t1)
         assert_allclose(f, expected)