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Efficient and Automated Detection of Microaneurysms from Non-Dilated Fundus Images |
1 College of Mechanical & Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 210016, China
2 Department of Ophthalmology, Jiangsu province hospital of TCM, Nanjing, 210029, China |
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Abstract In order to automatically detect microaneurysms from non-dilated fundus images, and develop an automated diabetic retinopathy screening system, a novel, simple and efficient algorithm of automatic microaneurysms detection was established and studied in this work. Hard exudates and vessel were segmented by mathematical morphology on the basis of preprocessed green channel of the original non-dilated fundus image in RGB channels. Then, candidate regions of microaneurysms were obtained by removing hard exudates and vessel from the resulting image of extended-minima transform on the previously preprocessed image. Thus, the true lesions of microaneurysms were separated based on size information. The algorithm was tested on two groups of non-dilated fundus images with different quality. Statistical analysis of detection results showed that precision for the two groups were both high, each relative error of corresponding indexes between two groups was lower than 4%, and processing efficiency was high for which the mean time cost for processing an image is 9.7 seconds. Results suggest that the algorithm can efficiently detect microaneurysms from non-dilated fundus images, and it is stable and reliable. As a result, the proposed algorithm has high practical value.
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