Automated retinal blood vessels segmentation based on simplified PCNN and fast 2D-Otsu algorithm

Chang Yao; Hou-jin Chen

doi:10.1007/s11771-009-0106-3

Journal of Central South University ›› 2009, Vol. 16 ›› Issue (4) : 640 -646. DOI: 10.1007/s11771-009-0106-3

Article

Automated retinal blood vessels segmentation based on simplified PCNN and fast 2D-Otsu algorithm

Chang Yao ¹
, Hou-jin Chen ¹

Author information +

History +

PDF

Abstract

According to the characteristics of dynamic firing in pulse coupled neural network (PCNN) and regional configuration in retinal blood vessel network, a new method combined with simplified PCNN and fast 2D-Otsu algorithm was proposed for automated retinal blood vessels segmentation. Firstly, 2D Gaussian matched filter was used to enhance the retinal images and simplified PCNN was employed to segment the blood vessels by firing neighborhood neurons. Then, fast 2D-Otsu algorithm was introduced to search the best segmentation results and iteration times with less computation time. Finally, the whole vessel network was obtained via analyzing the regional connectivity. Experiments implemented on the public Hoover database indicate that this new method gets a 0.803 5 true positive rate and a 0.028 0 false positive rate on an average. According to the test results, compared with Hoover algorithm and method of PCNN and 1D-Otsu, the proposed method shows much better performance.

Keywords

blood vessel segmentation / pulse coupled neural network (PCNN) / Otsu / neuron

Cite this article

Download citation ▾

Chang Yao, Hou-jin Chen. Automated retinal blood vessels segmentation based on simplified PCNN and fast 2D-Otsu algorithm. Journal of Central South University, 2009, 16(4): 640-646 DOI:10.1007/s11771-009-0106-3

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	YaoC., ChenH.-j., LiJ.-peng.. Segmentation of retinal blood vessels based on transition region extraction [J]. Acta Electronica Sinica, 2008, 36(5): 974-978

[2]	ChaudhuriS., ChatterjeeS., KatzN., NelsonM., GoldbaumM.. Detection of blood vessels in retinal images using two-dimensional matched filters [J]. IEEE Transactions on Medical Imaging, 1989, 8(3): 263-269

[3]	JiangX. Y., MojonD.. Adaptive local thresholding by verification-based multithreshold probing with application to vessel detection in retinal images [J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2003, 25(1): 131-137

[4]	ToliasY. A., PanasS. M.. A fuzzy vessel tracking algorithm for retinal images based oil fuzzy clustering [J]. IEEE Transactions on Medical Imaging, 1998, 17(2): 263-273

[5]	TangM., WangH.-nan.. Automatic segmentation algorithm of color retinal vascular images [J]. Chinese Journal of Scientific Instrument, 2007, 28(7): 1281-1285

[6]	HooverA., KouznetsovaV., GoldbaumM.. Locating blood vessels in retinal images by piecewise threshold probing of a matched filter response [J]. IEEE Transactions on Medical Imaging, 2000, 19(3): 203-210

[7]	EckhornR., ReitboeckH. J., ArndtM., DickeP.. Feature linking via synchronization among distributed assemblies: Simulations of results from cat visual cortex [J]. Neural Computation, 1990, 2(3): 293-307

[8]	ZhangH.-l., ZouZ., LiJ., ChenX.-tao.. Flame image recognition of alumina rotary kiln by artificial neural network and support vector machine methods [J]. Journal of Central South University of Technology, 2008, 15(1): 39-43

[9]	JohnsonJ. L., PadgettM. L.. PCNN models and applications [J]. IEEE Transactions on Neural Networks, 1999, 10(3): 480-498

[10]	MaY.-d., DaiR.-l., LiL.. Automated image segmentation using pulse coupled neural networks and image’s entropy [J]. Journal on Communication, 2002, 23(1): 46-51

[11]	LiG.-y., LiH.-g., WuT.-hua.. Enhancement of image based on Otsu and modified PCNN [J]. Journal of System Simulation, 2005, 17(6): 1370-1372

[12]	YAO Chang, CHEN Hou-jin, YU Jiang-bo, LI Ju-peng. Application of distributed genetic algorithm based on migration strategy in image segmentation [C]// The 3rd International Conference on Natural Computation. Haikou, 2007: 218–222.

[13]	HOOVER A. Structured analysis of the retina [EB/OL]. [2000-11]. http://www.ces.clemson.edu/~ahoover/stare/.

[14]	OtsuN.. A threshold selection method from gray level histograms [J]. IEEE Transactions on Systems, Man and Cybernetics, 1979, 9(1): 62-66

[15]	HUANG Shu-ying, ZHANG Er-hu. A method for segmentation of retinal image vessels [C]// Proceedings of the 6th World Congress on Intelligent Control and Automation. Dalian, 2006: 9673–9676.