tomopy.prep.stripe
¶
Module for pre-processing tasks.
Functions:
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Remove horizontal stripes from sinogram using the Fourier-Wavelet (FW) based method [B4]. |
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Remove horizontal stripes from sinogram using Titarenko’s approach [B12]. |
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Normalize raw projection data using a smoothing filter approach. |
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Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 3 in the paper. |
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Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 2 in the paper. |
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Remove horizontal stripes from sinogram using Nghia Vo’s approach [B23] Algorithm 1 in the paper. |
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Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 5 in the paper. |
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Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 6 in the paper. |
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Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Combine algorithms 6,5,4,3 to remove all types of stripes. |
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tomopy.prep.stripe.
remove_all_stripe
(tomo, snr=3, la_size=61, sm_size=21, ncore=None, nchunk=None)[source]¶ Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Combine algorithms 6,5,4,3 to remove all types of stripes.
- Parameters
tomo (ndarray) – 3D tomographic data.
snr (float) – Ratio used to locate large stripes. Greater is less sensitive.
la_size (int) – Window size of the median filter to remove large stripes.
sm_size (int) – Window size of the median filter to remove small-to-medium stripes.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_dead_stripe
(tomo, snr=3, size=51, ncore=None, nchunk=None)[source]¶ Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 6 in the paper. Remove unresponsive and fluctuating stripes.
- Parameters
tomo (ndarray) – 3D tomographic data.
snr (float) – Ratio used to detect locations of large stripes. Greater is less sensitive.
size (int) – Window size of the median filter.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_large_stripe
(tomo, snr=3, size=51, ncore=None, nchunk=None)[source]¶ Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 5 in the paper. Remove large stripes.
- Parameters
tomo (ndarray) – 3D tomographic data.
snr (float) – Ratio used to locate of large stripes. Greater is less sensitive.
size (int) – Window size of the median filter.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_based_filtering
(tomo, sigma=3, size=None, ncore=None, nchunk=None)[source]¶ Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 2 in the paper. Remove stripes using the filtering technique.
- Parameters
tomo (ndarray) – 3D tomographic data.
sigma (float) – Sigma of the Gaussian window which is used to separate the low-pass and high-pass components of the intensity profiles of each column.
size (int) – Window size of the median filter.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_based_fitting
(tomo, order=3, sigma=5, 20, ncore=None, nchunk=None)[source]¶ Remove horizontal stripes from sinogram using Nghia Vo’s approach [B23] Algorithm 1 in the paper. Remove stripes using the fitting technique.
- Parameters
tomo (ndarray) – 3D tomographic data.
order (int) – Polynomial fit order.
sigma (tuple of 2 floats) – Sigmas of a 2D Gaussian window in x and y direction.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_based_sorting
(tomo, size=None, ncore=None, nchunk=None)[source]¶ Remove stripe artifacts from sinogram using Nghia Vo’s approach [B23] Algorithm 3 in the paper. Remove stripes using the sorting technique. Work particularly well for removing partial stripes.
- Parameters
tomo (ndarray) – 3D tomographic data.
size (int) – Window size of the median filter.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_fw
(tomo, level=None, wname='db5', sigma=2, pad=True, ncore=None, nchunk=None)[source]¶ Remove horizontal stripes from sinogram using the Fourier-Wavelet (FW) based method [B4].
- Parameters
tomo (ndarray) – 3D tomographic data.
level (int, optional) – Number of discrete wavelet transform levels.
wname (str, optional) – Type of the wavelet filter. ‘haar’, ‘db5’, sym5’, etc.
sigma (float, optional) – Damping parameter in Fourier space.
pad (bool, optional) – If True, extend the size of the sinogram by padding with zeros.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_sf
(tomo, size=5, ncore=None, nchunk=None)[source]¶ Normalize raw projection data using a smoothing filter approach.
- Parameters
tomo (ndarray) – 3D tomographic data.
size (int, optional) – Size of the smoothing filter.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.
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tomopy.prep.stripe.
remove_stripe_ti
(tomo, nblock=0, alpha=1.5, ncore=None, nchunk=None)[source]¶ Remove horizontal stripes from sinogram using Titarenko’s approach [B12].
- Parameters
tomo (ndarray) – 3D tomographic data.
nblock (int, optional) – Number of blocks.
alpha (int, optional) – Damping factor.
ncore (int, optional) – Number of cores that will be assigned to jobs.
nchunk (int, optional) – Chunk size for each core.
- Returns
ndarray – Corrected 3D tomographic data.