Adaptation in natural and artificial systems
Adaptation in natural and artificial systems
An Automatic System for the Location of the Optic Nerve Head from 2D Images
IWANN '01 Proceedings of the 6th International Work-Conference on Artificial and Natural Neural Networks: Bio-inspired Applications of Connectionism-Part II
Identification of the optic nerve head with genetic algorithms
Artificial Intelligence in Medicine
Localisation of the optic disc by means of GA-optimised Topological Active Nets
Image and Vision Computing
Segmentation of the optic disk in color eye fundus images using an adaptive morphological approach
Computers in Biology and Medicine
| Hi-index | 0.00 |
This paper proposes an automatic method to locate and segment the optic nerve head (papilla) from eye fundus color photographic images. The method is inspired in the approach presented in [1]. Here, we use a Gaussian pyramid representation of the input image to obtain a subwindow centered at a point of the papillary area. Then, we apply a Laplacian pyramid to this image subwindow and we obtain a set of interest points (IPs) in two pyramid levels. Finally, a two-phase genetic algorithm is used in each pyramid level to find an ellipse containing the maximum number of IPs in an offset of its perimeter and, in this way, to achieve a progressive solution to the ONH contour. The method is tested in an eye fundus image database and, in relation to the method described in [1], the proposed method provides a slightly lower performance but it simplifies the methodology used to obtain the set of IPs and also reduces the computational cost of the whole process.