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Fingers shape biometric identification using Point Distribution Models

Fingers shape biometric identification using Point Distribution Models

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© The Institution of Engineering and Technology
Published

A hand profile characterisation approach for biometric identification with contactless hand image acquisition is evaluated. The approach models the shapes of fingers with Point Distribution Models (PDMs), which consist of a mean shape and a number of eigenvectors which describe the main modes of variation of the shape class. The weighted PDM eigenvectors that capture the variation between the input finger shapes and the averaged finger shapes are used as feature vectors. Classification is performed using a least squares support vector machine. Experiments using multiple hand databases demonstrated the advantage of using finger PDMs.

Inspec keywords: shape recognition; least squares approximations; biometrics (access control); fingerprint identification; support vector machines; eigenvalues and eigenfunctions

Other keywords: fingers shape biometric identification; hand profile characterisation approach; contactless hand image acquisition; mean shape; least squares support vector machine; point distribution models; input finger shapes; weighted PDM eigenvectors; averaged finger shapes

Subjects: Interpolation and function approximation (numerical analysis); Linear algebra (numerical analysis); Knowledge engineering techniques; Linear algebra (numerical analysis); Computer vision and image processing techniques; Image recognition; Interpolation and function approximation (numerical analysis)

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