Title :
A reliability study of fractal analysis of the skeletonised vascular network using the "box-counting" technique
Author :
MacGillivray, T.J. ; Patton, N.
Author_Institution :
Clinical Res. Facility, Edinburgh Univ.
Abstract :
Binary vascular networks of the human retina were obtained by computerized processing of digital fundus images. Fractal analysis was performed on skeletonised versions. The effect of three parameters in the vascular segmentation and skeletonization algorithm was quantified, with threshold level found to have the greatest influence. The results were compared to fractal analysis of skeletons derived by manual tracing. The mean difference in fractal dimension between 2 observers is 0.004 (0.3%) and the coefficient of repeatability is plusmn0.050 (3.4%). Between a single observer and the computerized approach the mean difference is 0.012 (0.8%) and the coefficient is plusmn0.038 (2.6%). The computerized approach demonstrated a superior reliability compared to manual segmentation
Keywords :
blood vessels; eye; image segmentation; image thinning; medical image processing; binary vascular network; box-counting technique; computerized image processing; digital fundus images; fractal analysis; human retina; manual tracing; reliability study; repeatability; skeletonization algorithm; vascular segmentation; Bismuth; Color; Computer network reliability; Computer networks; Filtering; Fractals; Humans; Image segmentation; Retina; USA Councils;
Conference_Titel :
Engineering in Medicine and Biology Society, 2006. EMBS '06. 28th Annual International Conference of the IEEE
Print_ISBN :
1-4244-0032-5
Electronic_ISBN :
1557-170X
DOI :
10.1109/IEMBS.2006.260821
