Multimodal fingerprint and face biometrics with fragile watermarking and convolutional neural network
The rapidly growing use and storage of private, sensitive, and personal information across different applications have given rise to the need to restrict access to such information; thus, leading to the development of biometric authentication. Multimodal biometric authentication has improved syst...
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| Main Author: | |
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| Format: | Thesis |
| Language: | English |
| Published: |
2020
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/92805/1/FK%202020%20107%20UPMIR.pdf http://psasir.upm.edu.my/id/eprint/92805/ |
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| Summary: | The rapidly growing use and storage of private, sensitive, and personal information
across different applications have given rise to the need to restrict access to such
information; thus, leading to the development of biometric authentication. Multimodal
biometric authentication has improved system accuracy, but it has not been able to
overcome all the vulnerabilities of biometric authentication. To reduce the amount of
data that is stored or communicated during the authentication process and to ensure
the authenticity of the biometric templates, image watermarking techniques have been
used to embed the information in one template over the other. These techniques are
either robust or fragile. The robust method can compress the watermarked images but
has a limited ability to detect tampering, whereas fragile methods can detect tampering
but does not allow watermarked images to be compressed.
In this thesis, a new watermarking method is proposed, based on the Discrete Cosine
Transform (DCT) method and the Least Significant Bit (LSB) method. The LSBs of
the quantized DCT coefficients of a face image are manipulated according to the
values of a binarized fingerprint image. This combination was used to allow the storing
and communication of the watermarked images using the popular JPEG format. Since
the binarized fingerprint image passes only through lossless compression, i.e.
Huffman encoding, the results showed that the fingerprint information before
watermarking and that extracted from the watermarked image are identical. Moreover,
because all frequency ranges were used in the DCT format of the face image, the
results showed that the proposed method had not significantly affected the image, i.e.
the cover image, unlike other existing methods. As the watermark information is not hand-crafted, tamper detection could not be
achieved by comparing a static image to the extracted watermark. Thus, a Machine-
Learning (ML)-based method was implemented to detect the existence of fingerprint
patterns in the watermark. However, as the proposed system used a Convolutional
Neural Network (CNN) to measure the similarity between the templates collected
from the user and those stored in the model database, tamper detection was already
embedded in the same neural network. Accordingly, this neural network output an
authentication measure that represents the probability that the collected templates are
authentic. A high authenticity measure indicates that the collected templates match the
model’s templates and that there was no tampering of the received templates.
Experiments were conducted to evaluate the performance of the proposed system. The
results show a 98.96% average accuracy, where each prediction took an average
processing time of 139.06 ms. The results also showed that the accuracy of tampering
detection was 100%. Besides, the size of the files on the disk (or the bandwidth
required to communicate the files) was reduced to less than 50% of their original size
using the proposed fragile multibiometric watermarking technique. Hence, the
proposed methodology was able to yield outstanding performance, compared to
existing state-of-the-art methods, while achieving the objectives of the study, namely,
to reduce the file size and the time required to authenticate legitimate users while
retaining the ability to detect tampering. |
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