Abstract
Offline handwritten signature is a type of behavioral biometric-based on an image. Its problem is the accuracy of the verification because once an individual signs, he/she seldom signs the same signature. This is referred to as intra-user variability. This research aims to improve the recognition accuracy of the offline signature. The proposed method is presented by using both signature length normalization and histogram orientation gradient (HOG) for the reason of accuracy improving. In terms of verification, a deep-learning technique using a convolution neural network (CNN) is exploited for building the reference model for a future prediction. Experiments are conducted by utilizing 4,000 genuine as well as 2,000 skilled forged signature samples collected from 200 individuals. This database is publicly distributed under the name of SIGMA for Malaysian individuals. The experimental results are reported as both error forms, namely False Accept Rate (FAR) and False Reject Rate (FRR), which achieved up to 4.15% and 1.65% respectively. The overall successful accuracy is up to 97.1%. A comparison is also made that the proposed methodology outperforms the state-of-the-art works that are using the same SIGMA database.
Keywords
Biometrics, Deep-learning, Handwritten signature, Histogram Oriented Gradient (HOG), Image Processing, Length-normalization, Signature verification
Article Type
Article
How to Cite this Article
Alkattan, Zahraa Mazin and Aldabagh, Ghada Mohammad Tahir
(2022)
"Offline Signature Biometric Verification with Length Normalization using Convolution Neural Network,"
Baghdad Science Journal: Vol. 19:
Iss.
5, Article 9.
DOI: https://doi.org/10.21123/bsj.2022.6117