This repository contains a collection of enhancement methods useful for
retinal fundus images, with emphasis on Pixel Color Amplification.
These methods are very useful as a pre-processing step to fundus image
analysis and machine learning. They have applicability to a wide
variety of image domains, but we focus on retinal fundus images.
I would be happy to link to your paper in the "papers" section if you use this code or method. Please cite or acknowledge the below paper if you use the code or method. Thank you!
A. Gaudio, A. Smailagic, A. Campilho, “Enhancement of Retinal Fundus Images via Pixel Color Amplification,” In: Karray F., Campilho A., Wang Z. (eds) Image Analysis and Recognition. ICIAR 2020. Lecture Notes in Computer Science, vol 11663. Springer, Cham (accepted)
- ./iciar2020/ - Code, slides and paper for the Pixel Color Amplification paper from ICIAR 2020.
ietk.util- methods to separate the fundus from the black background, as well as crop the image to minimize background.ietk.methods- a set of enhancement methods, mostly based on pixel color amplification for brightening, darkening and sharpening.ietk.data- access to the images in the IDRiD dataset for R&D (assuming you already downloaded the dataset)
pip install ietk-ret
from matplotlib import pyplot as plt
from ietk import methods
from ietk import util
from ietk.data import IDRiD
# load a fundus image, normalized into 0-1 range (not 0-255)
# such as one from the IDRiD dataset (assuming you already have it on disk)
dset = IDRiD('./data/IDRiD_segmentation')
img_id, img, labels = dset.sample()
print("using image", img_id)
# crop fundus image and get a focus region (a very useful function!)
I = img.copy()
I, fg = util.center_crop_and_get_foreground_mask(I)
# enhance the image with an enhancement method from the ICIAR 2020 paper
# (any combination of letters A,B,C,D,W,X,Y,Z and sA,sB,sC,... are supported)
enhanced_img = methods.brighten_darken(I, 'A+B+X', focus_region=fg)
enhanced_img2 = methods.sharpen(enhanced_img, bg=~fg)
# plot results
f, (ax1, ax2, ax3) = plt.subplots(1, 3)
ax1.imshow(img)
ax2.imshow(enhanced_img)
ax3.imshow(enhanced_img2)
f.tight_layout()
This code, including the API and methods, may not be backwards compatible between releases. If you use it, fix the version, git tag or git commit used in your requirements.txt file.
I am not responsible or liable for your use of this code or methods. Please carefully verify and ensure safety of its use in any production or decision-making or clinical or other contexts.