Interval-valued symbolic representation based method for off-line signature verification

S. Pal, Alireza Alaei, U. Pal, M. Blumenstein
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引用次数: 12

Abstract

The objective of this investigation is to present an interval-symbolic representation based method for offline signature verification. In the feature extraction stage, Connected Components (CC), Enclosed Regions (ER), Basic Features (BF) and Curvelet Feature (CF)-based approaches are used to characterize signatures. Considering the extracted feature vectors, an interval data value is created for each feature extracted from every individual's signatures as an interval-valued symbolic data. This process results in a signature model for each individual that consists of a set of interval values. A similarity measure is proposed as the classifier in this paper. The interval-valued symbolic representation based method has never been used for signature verification considering Indian script signatures. Therefore, to evaluate the proposed method, a Hindi signature database consisting of 2400 (100×24) genuine signatures and 3000 (100×30) skilled forgeries is employed for experimentation. Concerning this large Hindi signature dataset, the highest verification accuracy of 91.83% was obtained on a joint feature set considering all four sets of features, while 2.5%, 13.84% and 8.17% of FAR (False Acceptance Rate), FRR (False Rejection Rate), and AER (Average Error Rate) were achieved, respectively.
基于区间值符号表示的离线签名验证方法
本研究的目的是提出一种基于区间符号表示的离线签名验证方法。在特征提取阶段,采用连通成分(CC)、封闭区域(ER)、基本特征(BF)和曲波特征(CF)等方法对签名进行特征提取。考虑提取的特征向量,对从每个个体签名中提取的每个特征创建一个区间数据值作为区间值符号数据。此过程将为每个个体生成一个签名模型,该模型由一组间隔值组成。本文提出了一种相似度测度作为分类器。考虑到印度文字签名,基于区间值符号表示的方法从未用于签名验证。因此,为了评估所提出的方法,使用了一个由2400个(100×24)真实签名和3000个(100×30)熟练伪造签名组成的印地语签名数据库进行实验。在此大型印地语签名数据集上,综合考虑所有四组特征的联合特征集的验证准确率最高,达到91.83%,而FAR (False Acceptance Rate)、FRR (False Rejection Rate)和AER (Average Error Rate)的准确率分别为2.5%、13.84%和8.17%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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