h-zhou15 / sarepy

Numerical techniques for ring artifact removal in tomography.

Home Page:https://sarepy.readthedocs.io/

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Sarepy

(S)tripe (A)rtifacts (RE)moval in (PY)thon

Numerical techniques for ring artifact removal in X-ray micro-tomography

Sarepy is the Python implementations of methods used for removing ring artifacts in tomography. These methods work in sinogram space where artifacts appear as straight lines or stripe artifacts. The codes are developed from the original implementations of methods published in Optics Epxress, Nghia T. Vo, Robert C. Atwood, and Michael Drakopoulos, "Superior techniques for eliminating ring artifacts in X-ray micro-tomography," 26, 28396-28412 (2018). https://doi.org/10.1364/OE.26.028396

Authors:

Nghia Vo - Diamond Light Source

Contributors:

Daniel S. Hussey - NIST: National Institute of Standards and Technology

Importance notice

Starting 05/2021, methods in Sarepy have been integrated and developed further in the Algotom package, https://github.com/algotom/algotom . Algotom is a complete software package for processing tomographic reconstruction. It is installable using Conda and Pip.

Many utility methods were added to Algotom which allow users to customize stripe/ring removal methods as demonstrated here.

How to use

Clone or download the codes to your local machine, then insert the following two lines to your python codes:

import sys  
sys.path.insert(0, "path-to-sarepy-pck")

Making sure that the python libs in the requirements.txt are installed before use.
Details of how to use the methods can be found in /examples/examples.py. Noting that parameters chosen in these examples are for the sinograms in the /data folder. The selected windows of the median filter (81 for large stripes, 31 for others) may be overkill for good quality detectors. You should change these paramaters to suit your data.

Features

  • Methods for cleaning different types of stripe artifacts: full stripes, partial stripes, unresponsive stripes, fluctuating stripes, large stripes, and blurry stripes.
  • Various approaches based on the equalization-based methods, i.e equalizing the "response curves" of adjacent pixels, and their combinations.
  • A robust stripe detection method.
  • Implementations of former methods: a regularization-based method, a normalization-based method, a fft-based method, and a wavelet-fft-based method.
  • Matlab translation of algorithms 3,4,5,6.
  • Implementations of a basic pipeline of tomography reconstruction: data loading, automated determination of center of rotation, ring artifact removal, tomographic reconstruction, and data saving.
  • Postprocessing methods for removing ring artifacts: polar tranformation, fft-based methods.

Documentation

Update Notes

  • 09/10/2019:
    Add methods for loading and saving data (from vounwarp), methods for calculating center of rotation, wrappers of reconstruction methods (from tomopy and astra). This allows users to try or test ring removal methods easily.
  • 11/02/2020:
    Allow to use 2D kernel in the median filter of the sorting-based correction methods. This is done based on feedbacks from neutron imaging users. Note that this increases the computational cost.
    Add some sinograms for testing.
  • 05/05/2020:
    Publish documentation on readthedocs.
    Add postprocessing methods.
  • 15/09/2020:
    Add an interpolation-based stripe removal method. It is a combination of algorithm 4, 5, and 6 in https://doi.org/10.1364/OE.26.028396

About

Numerical techniques for ring artifact removal in tomography.

https://sarepy.readthedocs.io/

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Language:Python 89.9%Language:MATLAB 10.1%