1 Iris Recognition Ying Sun AICIP Group Meeting November 3, 2006
2 Outline Introduction of Biometrics Methods for Iris Recognition Conclusion and Outlook
3 Biometrics Overview Measures human body features Universal, unique, permanent & quantitatively measurable Physiological characteristics Fingerprints Face DNA Hand Geometry/Ear Shape Iris/Retina Behavioral characteristics Signature/gait keystrokes / typing Voiceprint Example applications Banking, airport access, info security, etc.
4 Advantages of Iris Recognition Uniqueness Highly rich texture Twins have different iris texture Right eye differs from left eye Stability Do not change with ages Do not suffer from scratches, abrasions, distortions Noninvasiveness Contactless technique High recognition performance
5 Comparison of biometric techniques
6 Verification: One to one matching Is this person really who they claim to be? Identification: One to many matching Who is this person? Identification is more difficult! Verification and Identification
7 10,000 samples, to identify which one is correct. Suppose being right on an individual test: To make a correct identification, have to be right on every one of the 10,000 tests ,000 = 0.37 Misidentifying: 1.0 – 0.37 = % chance of being wrong! Identification
8 Database of 1,000 Chance of error: ,000 = 0.09 Database of 10,000 Chance of error: ,000 = 0.63 Database of 100,000 Chance of error: ,000 = Misidentification increases with the size of database
9 Need Higher Identification Confidence! Iris Recognition Would Satisfy this Criteria. Need Higher Identification Confidence! Iris Recognition Would Satisfy this Criteria.
10 Iris Structure
11 Procedure Employed in Iris Recognition Iris localization (Segmentation) Feature extraction Pattern matching Focusing on Daugman Method
12 Iris Localization Localize the boundary of an iris from the image In particular, localize both the pupillary boundary and the outer (limbus) boundary of the iris. (limbus--the border between the sclera and the iris), both the upper and lower eyelid boundaries Desired characteristics of iris localization: Sensitive to a wide range of edge contrast Robust to irregular borders Capable of dealing with variable occlusions
13 Iris Localization Image Segmentation I(x,y): Raw image : Radial Gaussian *: Convolution The operator searches over the image domain for the maximum in the partial derivative according to increasing radius r, of the normalized contour integral of I(x,y) along a circular arc ds and center coordinates. (active contour fitting method)
14 Feature Extraction Image Contains Both Amplitude and Phase Phase is unaffected by brightness or contrast changes Phase Demodulation via 2D Gabor wavelets Angle of each phasor quantized to one/four quadrants
15 Gabor Wavelets Gabor Wavelets filter out structures at different scales and orientations For each scale and orientation there is a pair of odd and even wavelets A scalar product is carried out between the wavelet and the image (just as in the Discrete Fourier Transform) The result is a complex number
16 Phase Demodulation The complex number is converted to 2 bits The modulus is thrown away because it is sensitive to illumination intensity The phase is converted to 2 bits depending on which quadrant it is in
17 The iris code is a pattern of 1s and 0s (bits). These bits are compared against a stored bit pattern. Represent iris texture as a binary vector of 2048 bits
18 Pattern Matching Hamming distance (HD) Calculate the percentage of mismatched bits between a pair of iris codes. (0-100%)
19 Binomial Distribution If two codes come from different irises the different bits will be random The number of different bits will obey a binomial distribution with mean 0.5
20 Distributions of true matches versus non matches Hamming distances of true matches Hamming distances of false matches If an iris code differs from a stored pattern by 30% or less it is accepted as an identification
21 Encoding difference Probability of the encoding difference between several measurements of the same person Probability of the encoding difference between different people. P 0 T False rejectionFalse acceptance Threshold used to decide acceptance/rejection
22 Left eye: HD=0.24; Right eye: HD=0.31 Afghan Girl Identified by Iris Patterns
23 Summary for Identification Two codes come from different iris, HD~0.45 HD smaller for the same iris If the Hamming distance is < 0.33 the chances of the two codes coming from different irises is 1 in 2.9 million So far it has been tried out on 2.3 million test without a single error
24 Future Work Anti-spoofing Liveness detection Long distance identification Iris on the move Surveillance WSN+Iris Recognition
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26 Gabor Wavelet The complex carrier takes the form a complex sinusoidal carrier and a Gaussian envelope The real and imaginary part: