示例#1
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    def test_lfpcalc_calc_lfp_pointsource_moi_infinite_slice(self):
        """
        Test that infinitely thick slice does not affect potential.
        """
        sigma_T = 0.3
        sigma_G = 0.0
        sigma_S = 1.5
        h = 1e10
        steps = 20

        cell = DummyCell(z=np.array([[100, 100]]))

        with_saline = lfpcalc.calc_lfp_pointsource_moi(cell,
                                                       x=0,
                                                       y=0,
                                                       z=50,
                                                       sigma_T=sigma_T,
                                                       sigma_G=sigma_G,
                                                       sigma_S=sigma_S,
                                                       r_limit=cell.d / 2,
                                                       h=h,
                                                       steps=steps)

        without_saline = lfpcalc.calc_lfp_pointsource_moi(cell,
                                                          x=0,
                                                          y=0,
                                                          z=50,
                                                          sigma_T=sigma_T,
                                                          sigma_G=sigma_G,
                                                          sigma_S=sigma_T,
                                                          r_limit=cell.d / 2,
                                                          h=h,
                                                          steps=steps)

        np.testing.assert_almost_equal(with_saline, without_saline)
示例#2
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    def test_lfpcalc_calc_lfp_pointsource_moi_saline_effect(self):
        """
        Test that the saline bath decreases signal as expected
        """
        sigma_T = 0.3
        sigma_G = 0.0
        sigma_S = 1.5
        h = 200
        steps = 20

        cell = DummyCell(z=np.array([[100, 100]]))

        with_saline = lfpcalc.calc_lfp_pointsource_moi(cell,
                                                       x=0,
                                                       y=0,
                                                       z=0,
                                                       sigma_T=sigma_T,
                                                       sigma_G=sigma_G,
                                                       sigma_S=sigma_S,
                                                       r_limit=cell.d / 2,
                                                       h=h,
                                                       steps=steps)

        without_saline = lfpcalc.calc_lfp_pointsource_moi(cell,
                                                          x=0,
                                                          y=0,
                                                          z=0,
                                                          sigma_T=sigma_T,
                                                          sigma_G=sigma_G,
                                                          sigma_S=sigma_T,
                                                          r_limit=cell.d / 2,
                                                          h=h,
                                                          steps=steps)

        np.testing.assert_array_less(with_saline, without_saline)
示例#3
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    def test_lfpcalc_calc_lfp_pointsource_moi_01(self):
        """
        Test that ECoG scenario gives expected analytical result
        """

        sigma_T = 0.3
        sigma_G = 0.3
        sigma_S = 1.5
        h = 5000
        steps = 20
        cell = DummyCell(x=np.array([[0, 0]]), z=np.array([[h - 50, h - 50]]))

        source_scaling = (sigma_T - sigma_S) / (sigma_S + sigma_T)

        z = h - 20  # Recording position z <= h, z != cell.z.mean(axis=-1)[0]

        analytic = cell.imem[0] / (4 * np.pi * sigma_T) * (
            1 / np.abs(z - cell.z.mean(axis=-1)[0]) +  # real source
            # image source
            source_scaling / np.abs(z - (2 * h - cell.z.mean(axis=-1)[0])))

        moi_method_lfpy = lfpcalc.calc_lfp_pointsource_moi(cell.x,
                                                           cell.y,
                                                           cell.z,
                                                           x=0.,
                                                           y=0,
                                                           z=z,
                                                           sigma_T=sigma_T,
                                                           sigma_G=sigma_G,
                                                           sigma_S=sigma_S,
                                                           r_limit=cell.d / 2,
                                                           h=h,
                                                           steps=steps)

        np.testing.assert_equal(analytic, moi_method_lfpy)
示例#4
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    def test_lfpcalc_calc_lfp_pointsource_moi_00(self):
        """
        Test slice where all layers have same conductivity reproduces
        isotropic case.
        """
        sigma_T = 0.3
        sigma_G = 0.3
        sigma_S = 0.3
        h = 300
        steps = 20
        cell = DummyCell(np.array([[h / 2, h / 2]]))

        in_vivo = lfpcalc.calc_lfp_pointsource(cell.x,
                                               cell.y,
                                               cell.z,
                                               x=0.5,
                                               y=0,
                                               z=1,
                                               sigma=sigma_T,
                                               r_limit=cell.d / 2)
        in_vitro = lfpcalc.calc_lfp_pointsource_moi(cell.x,
                                                    cell.y,
                                                    cell.z,
                                                    x=0.5,
                                                    y=0,
                                                    z=1,
                                                    sigma_T=sigma_T,
                                                    sigma_G=sigma_G,
                                                    sigma_S=sigma_S,
                                                    r_limit=cell.d / 2,
                                                    h=h,
                                                    steps=steps)

        np.testing.assert_equal(in_vivo, in_vitro)
示例#5
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    def test_lfpcalc_calc_lfp_pointsource_moi_20steps(self):
        """
        Test that the calc_lfp_pointsource_moi reproduces previously known
        nummerical value
        """
        sigma_T = 0.3
        sigma_G = 0.0
        sigma_S = 1.5
        h = 200
        steps = 20

        correct = 0.00108189

        cell = DummyCell(x=np.array([[0., -200.]]), z=np.array(([[0., 220.]])))

        calculated = lfpcalc.calc_lfp_pointsource_moi(cell.x,
                                                      cell.y,
                                                      cell.z,
                                                      x=100,
                                                      y=0,
                                                      z=0,
                                                      sigma_T=sigma_T,
                                                      sigma_G=sigma_G,
                                                      sigma_S=sigma_S,
                                                      r_limit=cell.d / 2,
                                                      h=h,
                                                      steps=steps)

        np.testing.assert_almost_equal(correct, calculated, 5)
示例#6
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    def test_lfpcalc_calc_lfp_pointsource_moi_04(self):
        """
        Test that slice with zero-conductivity MEA region (z<0) has twice
        the potential as in vivo case at MEA electrode plane
        """
        sigma_T = 0.3
        sigma_G = 0.0
        sigma_S = 0.3
        h = 200
        steps = 3

        cell = DummyCell(z=np.array([[50, 50]]))

        in_vivo = lfpcalc.calc_lfp_pointsource(cell.x,
                                               cell.y,
                                               cell.z,
                                               x=50.,
                                               y=0,
                                               z=0,
                                               sigma=sigma_T,
                                               r_limit=cell.d / 2)
        in_vitro = lfpcalc.calc_lfp_pointsource_moi(cell.x,
                                                    cell.y,
                                                    cell.z,
                                                    x=50,
                                                    y=0,
                                                    z=0,
                                                    sigma_T=sigma_T,
                                                    sigma_G=sigma_G,
                                                    sigma_S=sigma_S,
                                                    r_limit=cell.d / 2,
                                                    h=h,
                                                    steps=steps)

        np.testing.assert_almost_equal(2 * in_vivo, in_vitro, decimal=9)
示例#7
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    def test_lfpcalc_calc_lfp_pointsource_moi_02(self):
        """
        Very close to point source, in vivo and in vitro have similar results,
        e.g., the positions should be adjusted similarly.
        """
        sigma_T = 0.3
        sigma_G = 0.0
        sigma_S = 1.5
        h = 2000
        steps = 20
        cell = DummyCell(z=np.array([[h / 2, h / 2]]))

        in_vivo = lfpcalc.calc_lfp_pointsource(cell.x,
                                               cell.y,
                                               cell.z,
                                               x=0.5,
                                               y=0,
                                               z=h / 2,
                                               sigma=sigma_T,
                                               r_limit=cell.d / 2)
        in_vitro = lfpcalc.calc_lfp_pointsource_moi(cell.x,
                                                    cell.y,
                                                    cell.z,
                                                    x=0.5,
                                                    y=0,
                                                    z=h / 2,
                                                    sigma_T=sigma_T,
                                                    sigma_G=sigma_G,
                                                    sigma_S=sigma_S,
                                                    r_limit=cell.d / 2,
                                                    h=h,
                                                    steps=steps)

        np.testing.assert_almost_equal(in_vivo, in_vitro, 4)