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Literature DB >> 27222695

Three-Dimensional Reconstruction of Blood Vessels of the Human Retina by Fractal Interpolation.

Hichem Guedri¹, Jihen Malek², Hafedh Belmabrouk³.

Abstract

In this work, data from two-dimensional (2D) images of the human retina were taken as a case study. First, the characteristic data points had been removed using the Douglas-Peucker (DP) method, and subsequently, more data points were added using random fractal interpolation approach, to reconstruct a three-dimensional (3D) model of the blood vessel. By visualizing the result, we can see that all the small blood vessels in the human retina are more visible and detailed. This algorithm of 3D reconstruction has the advantage of being fast with calculation time less than 40 s and also can reduce the 3D image storage level on a disk with a reduction ratio between 78% and 96.65%.

Entities: Species

Year: 2016 PMID： 27222695 PMCID： PMC4843852 DOI： 10.1115/1.4032170

Source DB: PubMed Journal: J Nanotechnol Eng Med ISSN： 1949-2944

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References

5 in total

Three-Dimensional Reconstruction of Blood Vessels of the Human Retina by Fractal Interpolation.

1. Locating blood vessels in retinal images by piecewise threshold probing of a matched filter response.

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3. Automatic segmentation, detection and quantification of coronary artery stenoses on CTA.

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5. A function for quality evaluation of retinal vessel segmentations.