Beispiel #1
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 def test_conv_channel(self):
     fake_image_list = split_eeg.split_eeg_signal_axes(FAKE_EEG_SIGNAL,
                                                       split_dim=1)
     kernel_tensor, input_shape = \
         concat_eeg.conv_eeg_signal_channel(fake_image_list, 256, 1)
     # check the size of the shape is equal to the concat size
     self.assertEqual(kernel_tensor.get_shape().as_list(), input_shape)
Beispiel #2
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 def test_conv_channel(self):
     fake_image_list = split_eeg.split_eeg_signal_axes(FAKE_EEG_SIGNAL,
                                                       split_dim=1)
     kernel_tensor, input_shape = \
         concat_eeg.conv_eeg_signal_channel(fake_image_list, 256, 1)
     # check the size of the shape is equal to the concat size
     self.assertEqual(kernel_tensor.get_shape().as_list(), input_shape)
Beispiel #3
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    def test_conv_channel_time(self):
        # first split the eeg signal of (10, 256, 256, 1) to 256 * (10, 1, 256, 1)
        fake_image_list = split_eeg.split_eeg_signal_axes(FAKE_EEG_SIGNAL,
                                                          split_dim=1)
        # then concat the eeg signal use 256 channel kernel index to (10, 256*5, 256, 1)
        kernel_tensor, input_shape = \
            concat_eeg.conv_eeg_signal_channel(fake_image_list, 256, 1)
        self.assertEqual(kernel_tensor.get_shape().as_list(), [10, 256*5, 256, 4])
        self.assertEqual(input_shape, [10, 256*5, 256, 4])

        # then split the new eeg signal of (10, 1280, 256, 1) to 256 * (10, 1280, 1, 1)
        fake_image_list = split_eeg.split_eeg_signal_axes(kernel_tensor,
                                                          split_dim=2)
        # then concat the eeg signal use 256 channel kernel index to (10, 256*5, 256*5, 1)
        kernel_tensor, input_shape = \
            concat_eeg.conv_eeg_signal_time(fake_image_list, np.arange(0, 256))

        # check the size of the shape is equal to the concat size
        self.assertEqual(kernel_tensor.get_shape().as_list(), [10, 256*5, 256*5, 4])
        self.assertEqual(input_shape, [10, 256*5, 256*5, 4])
Beispiel #4
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    def test_conv_channel_time(self):
        # first split the eeg signal of (10, 256, 256, 1) to 256 * (10, 1, 256, 1)
        fake_image_list = split_eeg.split_eeg_signal_axes(FAKE_EEG_SIGNAL,
                                                          split_dim=1)
        # then concat the eeg signal use 256 channel kernel index to (10, 256*5, 256, 1)
        kernel_tensor, input_shape = \
            concat_eeg.conv_eeg_signal_channel(fake_image_list, 256, 1)
        self.assertEqual(kernel_tensor.get_shape().as_list(),
                         [10, 256 * 5, 256, 4])
        self.assertEqual(input_shape, [10, 256 * 5, 256, 4])

        # then split the new eeg signal of (10, 1280, 256, 1) to 256 * (10, 1280, 1, 1)
        fake_image_list = split_eeg.split_eeg_signal_axes(kernel_tensor,
                                                          split_dim=2)
        # then concat the eeg signal use 256 channel kernel index to (10, 256*5, 256*5, 1)
        kernel_tensor, input_shape = \
            concat_eeg.conv_eeg_signal_time(fake_image_list, np.arange(0, 256))

        # check the size of the shape is equal to the concat size
        self.assertEqual(kernel_tensor.get_shape().as_list(),
                         [10, 256 * 5, 256 * 5, 4])
        self.assertEqual(input_shape, [10, 256 * 5, 256 * 5, 4])