Title :
A Compact Size Feature Set for the Off-Line Signature Verification Problem
Author :
Nguyen, Vu ; Blumenstein, Michael
Author_Institution :
Sch. of ICT, Griffith Univ., Gold Coast, QLD, Australia
Abstract :
With increasing computational power, researchers in the area of off-line signature verification have been able to investigate feature extraction techniques that produce large-dimensional feature vectors. However, a large feature vector is not necessarily associated with high performance. This paper investigates the performance of a small feature set consisting of 33 feature values. In the experiments using Support Vector Machines (SVMs), an average error rate (AER) of 16.80% was obtained together with a low false acceptance rate (FAR) for random forgeries of 0.19%. The significant reduction of the error rate was obtained when the proposed global features were employed, which demonstrates their astonishingly high discriminant power. These results suggest that the use of global features for the off-line signature verification problem is worth further investigation.
Keywords :
digital signatures; feature extraction; support vector machines; AER; FAR; SVM; average error rate; compact size feature set; false acceptance rate; feature extraction techniques; feature vectors; offline signature verification problem; support vector machines; Error analysis; Feature extraction; Forgery; Support vector machines; Trajectory; Vectors; Energy feature; Off-line signature verification; Support Vector Machine; Variance feature; rotation invariant feature;
Conference_Titel :
Document Analysis Systems (DAS), 2012 10th IAPR International Workshop on
Conference_Location :
Gold Cost, QLD
Print_ISBN :
978-1-4673-0868-7
