Image processing of images acquired through fibre imaging bundle, including core removal, mosaicing and super-resolution..
Project description
PyFibreBundle
PyFibreBundle is a Python package for processing images captured through optical fibre bundles.
Full documentation is available on Readthedocs and a summary of the current functionality is below.
PyFibreBundle is fast enough for live imaging as well as for offline research; frame rates of over 100 fps can be achieved on mid-level hardware, including core removal and mosaicing. The Numba just-in-time compiler is used to accelerate key portions of code (particularly triangular linear interpolation) and OpenCV is used for fast mosaicing. If the Numba package is not installed then PyFibreBundle falls back on Python interpreted code.
The package was originally developed mostly for applications in endoscopic microscopy, including fluorescence endomicroscopy and holographic endomicroscopy, but there are also potential applications in endoscopy, industrial inspection etc.
Developed is led by Mike Hughes at the Applied Optics Group, School of Physics & Astronomy, University of Kent. Bug reports, contributions and pull requests are welcome. Academic collaborations are welcomed and consultancy is available for potential commercial users, get in touch
Join the mailing list to hear about releases, updates and bug fixes.
Capabilities
Core Functions
- Supports monochrome and multi-channel (e.g. colour) images.
- Locate bundle in image.
- Crop image to only show bundle.
- Mask areas outside of bundle.
- Determine core spacing.
- Find locations of all cores in bundle.
- Core removal by Gaussian filtering.
- Core removal using custom edge filtering.
- Core removal using triangular linear interpolation following Delaunay triangulation.
Mosaicing
- Detect image to image shift using normalised cross correlation.
- Insert image into mosaic either using dead-leaf or alpha blending.
- Expand or scroll mosaic when the edge of the mosaic image is reached.
Super Resolution
- Combine multiple shifted images to improve resolution.
Read the full documentation for more details.
Getting Started
There are three ways to get PyFibreBundle:
- Download the latest stable release from github and unzip. This will give you all the examples, tests and test data.
- Clone the github repository using git. This will give you the latest updates but more chance of bugs.
- Install the latest stable release using:
pip install PyFibreBundle
The third option (using pip install) should find and install all the dependencies. For the other two options you will need to either manually check you have the requirements installed, or navigate to the PyFibreBundle folder on your machine and run:
pip install -r requirements.txt
to install the dependencies. You may wish to create a virtual environment using Conda/venv first to avoid conflicts with your existing python setup.
Note that the pip install doesn't include the examples and tests which still need to be downloaded from Github.
Once installed, you can try running the examples.
Requirements
Required Packages:
- Numpy
- OpenCV
- Pillow
- Scipy
Optional Packages:
- Numba (for faster linear interpolation)
- Matplotlib (to run examples and tests)
Contributions
Cheng Yong Xin, Joseph, who contributed to triangular linear interpolation; Callum McCall who contributed to the super resolution component, Petros Giataganas who developed some of the Matlab code that parts of this library were ported from.
Funding from EPSRC (Ultrathin fluorescence microscope in a needle, EP/R019274/1), Royal Society (Ultrathin Inline Holographic Microscopy) and University of Kent.
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