Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder

Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder

The objective of this research is to design an efficient algorithm that can successfully enhance a targeted latent fingerprint from various complex backgrounds under an uncontrolled environment. Most algorithms in literature exploited dictionary learning schemes and deep learning architectures to ca...

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Bibliographic Details
Main Authors: Kittipol Horapong, Kittinuth Srisutheenon, Vutipong Areekul
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Access
Subjects:
Fingerprint recognition
image enhancement
image filtering
image forensics
image restoration
machine learning
Online Access:https://ieeexplore.ieee.org/document/9469797/
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record_format Article
spelling doaj-ae891c4cd11045e6b75f9f4ecc893ecc2021-07-13T23:00:22ZengIEEEIEEE Access2169-35362021-01-019962889630810.1109/ACCESS.2021.30938799469797Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral AutoencoderKittipol Horapong0https://orcid.org/0000-0003-2223-3166Kittinuth Srisutheenon1https://orcid.org/0000-0003-4033-1392Vutipong Areekul2https://orcid.org/0000-0002-6991-3620Department of Electrical Engineering, Kasetsart Signal and Image Processing Laboratory (KSIP Lab), Faculty of Engineering, Kasetsart University, Bangkok, ThailandDepartment of Electrical Engineering, Kasetsart Signal and Image Processing Laboratory (KSIP Lab), Faculty of Engineering, Kasetsart University, Bangkok, ThailandDepartment of Electrical Engineering, Kasetsart Signal and Image Processing Laboratory (KSIP Lab), Faculty of Engineering, Kasetsart University, Bangkok, ThailandThe objective of this research is to design an efficient algorithm that can successfully enhance a targeted latent fingerprint from various complex backgrounds under an uncontrolled environment. Most algorithms in literature exploited dictionary learning schemes and deep learning architectures to capture latent fingerprints from complicated backgrounds and noise. However, an algorithm learned from other high-quality fingerprint images may not solve all possible cases within a given unseen image. We propose a new feedback framework to distinguish latent fingerprints from complex backgrounds and gradually improve friction-ridge quality using the information provided inside the given unseen image. We combine two efficient mechanisms. The first mechanism enhances high-quality areas in priority and feeds the enhanced areas back to improve the quality of latent fingerprints in the nearby area. The second mechanism is to verify that the first mechanism works correctly by detecting anomalously enhanced fingerprint patterns. The second mechanism employs a spectral autoencoder that learns from good fingerprint spectra in the frequency domain. The anomalous fingerprint area is sent back to the first mechanism for further improving the enhanced result. We benchmark the proposed algorithm against available state-of-the-art algorithms using two fingerprint matching systems (one commercial off-the-shelf and one open-source) on two public latent fingerprint databases. The experimental results show that the proposed algorithm outperforms most state-of-the-art algorithms in the literature.https://ieeexplore.ieee.org/document/9469797/Fingerprint recognitionimage enhancementimage filteringimage forensicsimage restorationmachine learning
collection DOAJ
language English
format Article
sources DOAJ
author Kittipol Horapong
Kittinuth Srisutheenon
Vutipong Areekul
spellingShingle Kittipol Horapong
Kittinuth Srisutheenon
Vutipong Areekul
Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
IEEE Access
Fingerprint recognition
image enhancement
image filtering
image forensics
image restoration
machine learning
author_facet Kittipol Horapong
Kittinuth Srisutheenon
Vutipong Areekul
author_sort Kittipol Horapong
title Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
title_short Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
title_full Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
title_fullStr Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
title_full_unstemmed Progressive and Corrective Feedback for Latent Fingerprint Enhancement Using Boosted Spectral Filtering and Spectral Autoencoder
title_sort progressive and corrective feedback for latent fingerprint enhancement using boosted spectral filtering and spectral autoencoder
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2021-01-01
description The objective of this research is to design an efficient algorithm that can successfully enhance a targeted latent fingerprint from various complex backgrounds under an uncontrolled environment. Most algorithms in literature exploited dictionary learning schemes and deep learning architectures to capture latent fingerprints from complicated backgrounds and noise. However, an algorithm learned from other high-quality fingerprint images may not solve all possible cases within a given unseen image. We propose a new feedback framework to distinguish latent fingerprints from complex backgrounds and gradually improve friction-ridge quality using the information provided inside the given unseen image. We combine two efficient mechanisms. The first mechanism enhances high-quality areas in priority and feeds the enhanced areas back to improve the quality of latent fingerprints in the nearby area. The second mechanism is to verify that the first mechanism works correctly by detecting anomalously enhanced fingerprint patterns. The second mechanism employs a spectral autoencoder that learns from good fingerprint spectra in the frequency domain. The anomalous fingerprint area is sent back to the first mechanism for further improving the enhanced result. We benchmark the proposed algorithm against available state-of-the-art algorithms using two fingerprint matching systems (one commercial off-the-shelf and one open-source) on two public latent fingerprint databases. The experimental results show that the proposed algorithm outperforms most state-of-the-art algorithms in the literature.
topic Fingerprint recognition
image enhancement
image filtering
image forensics
image restoration
machine learning
url https://ieeexplore.ieee.org/document/9469797/
work_keys_str_mv AT kittipolhorapong progressiveandcorrectivefeedbackforlatentfingerprintenhancementusingboostedspectralfilteringandspectralautoencoder
AT kittinuthsrisutheenon progressiveandcorrectivefeedbackforlatentfingerprintenhancementusingboostedspectralfilteringandspectralautoencoder
AT vutipongareekul progressiveandcorrectivefeedbackforlatentfingerprintenhancementusingboostedspectralfilteringandspectralautoencoder
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