基于深度学习的签名验证

Wessam Salama
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引用次数: 0

摘要

:签名验证被认为是确定个人身份的主要特征之一。我们提出的框架强调了深度学习模型(DLM)在革新签名验证技术方面的潜力,并强调了在自动签名认证领域不断探索和进步的必要性。因此,本文基于 CEDAR、BH-Sig260 孟加拉语、BHSig260 印地语和 ICDAR 2011(荷兰语)这四个不同的数据集,引入了 ResNet50、DenseNet121、MobileNetV3、InceptionV3 和 VGG16 这五个预先训练好的深度学习模型来验证个人身份。此外,还应用了数据增强技术来克服数据集的局限性并提高框架的性能。此外,还采用了迁移学习和微调技术,以减少计算时间和内存使用。据观察,基于 ICDAR 2011(荷兰)的 InceptionV3 DLM 实现了最佳性能,即 100% 的准确率、100% 的 AUC 和 100% 的灵敏度。而 CEDAR 数据集的准确率为 99.76%,AUC 为 99.94%,灵敏度为 99.76%,精确度为 99.76%,F1 分数为 99.71%,计算时间为 13.627s。
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Signature Verification Based on Deep Learning
: Signature verification is considered one of the main features in determining the person identity. Our proposed framework emphasizes the potential of Deep Learning Models (DLMs) in revolutionizing signature verification techniques and underscores the need for continuous exploration and advancement in the realm of automated signature authentication. Therefore, five pre-trained DLMs, ResNet50, DenseNet121, MobileNetV3, InceptionV3, and VGG16, based on four different datasets, CEDAR, BH-Sig260 Bengali, BHSig260 Hindi, and ICDAR 2011(Dutch),are introduced in this paper to verify the person identity. Furthermore, data augmentation techniques are applied to overcome dataset limitations and increase the framework's performance. Additionally, transfer learning and fine-tuning techniques are performed to reduce computational time and memory usage. It is observed that the InceptionV3 DLM based on the ICDAR 2011 (Dutch) achieved the best performance of 100% accuracy, 100% AUC and 100% sensitivity. While, CEDAR Dataset achieves performance with an accuracy of 99.76%, an AUC of 99.94%, sensitivity of 99.76%, precision of 99.76%, an F1-score of 99.71%, score, and a computational time of 13.627s.
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