Title :
Iris recognition using fractional coefficients of transforms, Wavelet Transforms and Hybrid Wavelet Transforms
Author :
Thepade, Sudeep D. ; Bidwai, Pooja
Author_Institution :
Dept. of Comput. Eng., Pune Univ., Pune, India
Abstract :
Iris recognition is the best breed authentication process among all the biometric traits. It is a biometric identification process that uses visual patterns of irides. Iris recognition has been acknowledged as one of the most accurate biometric modalities because of its high recognition rate. Here performance comparison among various proposed techniques of Iris Recognition using the fractional coefficients of transformed Iris images is done considering Genuine Acceptance Ratio(GAR).The proposed method presents Iris recognition using Fractional coefficients of Cosine, Walsh, Haar, Slant and Kekre Transforms their Wavelet Transforms and Hybrid Wavelet Transforms. The experiments are done on 384 samples of palacky university dataset. The experiments showed that the fractional coefficient of transformed iris images gives higher GAR than considering 100% coefficients. Results show that Cosine and Haar Transforms outperforms at 0.10% fractional coefficients. Walsh wavelet transforms gives better performance at 0.10% fractional coefficients among all the Wavelet transform techniques implemented. DCT-Walsh Hybrid Wavelet Transforms outperforms over other Hybrid wavelet transforms implemented at 0.10% fractional coefficients. From the above it is clear that Wavelet Transforms and Hybrid Wavelet Transforms gives better results than Transforms.
Keywords :
Haar transforms; iris recognition; wavelet transforms; GAR; Haar transforms; Kekre transforms; Palacky University dataset; Walsh transforms; biometric identification process; biometric modalities; biometric traits; cosine transforms; discrete cosine transform; fractional coefficients; genuine acceptance ratio; hybrid wavelet transforms; iris recognition; iris visual patterns; recognition rate; slant transforms; Databases; Discrete cosine transforms; Educational institutions; Feature extraction; Iris recognition; Wavelet transforms; Discrete Cosine Transform; Feature vector; Haar Transfor; Hartley Transform; Hybrid Wavelet Transform; Kekre Transform; Slant Transform; Walsh Transform; Wavelet Transform;
Conference_Titel :
Control Computing Communication & Materials (ICCCCM), 2013 International Conference on
Conference_Location :
Allahabad
Print_ISBN :
978-1-4799-1374-9
DOI :
10.1109/ICCCCM.2013.6648921
