2020
DOI: 10.1007/s11042-020-08750-8
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Cycle-consistent generative adversarial neural networks based low quality fingerprint enhancement

Abstract: Distortions such as dryness, wetness, blurriness, physical damages and presence of dots in fingerprints are a detriment to a good analysis of them. Even though fingerprint image enhancement is possible through physical solutions such as removing excess grace on the fingerprint or recapturing the fingerprint after some time, these solutions are usually not user-friendly and time consuming. In some cases, the enhancements may not be possible if the cause of the distortion is permanent. In this paper, we are prop… Show more

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Cited by 13 publications
(9 citation statements)
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References 40 publications
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“…Joshi et al [53] [54] propose a generative adversarial network (GAN) based fingerprint enhancement algorithm (FP-E-GAN) and show its superior performance. Karabulut et al [55] propose a cycle-consistent GAN for unpaired translation from distorted domain to non-distorted domain. Recently, Joshi et al [56] propose introduce data uncertainty in fingerprint enhancement models and show that data uncertainty guided GAN (DU-GAN) outperforms state-of-the-art fingerprint enhancement models.…”
Section: Fingerprint Enhancementmentioning
confidence: 99%
See 1 more Smart Citation
“…Joshi et al [53] [54] propose a generative adversarial network (GAN) based fingerprint enhancement algorithm (FP-E-GAN) and show its superior performance. Karabulut et al [55] propose a cycle-consistent GAN for unpaired translation from distorted domain to non-distorted domain. Recently, Joshi et al [56] propose introduce data uncertainty in fingerprint enhancement models and show that data uncertainty guided GAN (DU-GAN) outperforms state-of-the-art fingerprint enhancement models.…”
Section: Fingerprint Enhancementmentioning
confidence: 99%
“…This section compares the performance of the proposed CR-GAN with the state-ofthe-art generative adversarial network based fingerprint enhancement models Cycle-GAN [55] and DU-GAN [56]. Figure 15 (a) and Table 13 compare the average NFIQ fingerprint quality sore obtained on enhanced images generated using Cycle-GAN, DU-GAN and the proposed CR-GAN.…”
Section: Comparison With State-of-the-art Generative Adversarial Netw...mentioning
confidence: 99%
“…The proposed method is evaluated on the CASIA Fingerprint dataset produced the best results using SIFT and ICA for fingerprint recognition with accuracy of 96.69, specificity f 96.77, precision of 94.88, recall 95.94 and F1-score of 95.4. A study to improve the quality of fingerprint digitally was proposed by [96]. The paper proposed a deep network to avoid the time consumption during physical recapturing of fingerprint.…”
Section: Application Of Convolutional Neural Network In Fingerprint Image Analysismentioning
confidence: 99%
“…Few studies on GAN demonstrate the efficacy of DL in generating fingerprint images. Different application tasks of the proposed DL-based methods have been identified such as fingerprint classification [15, 67, 79-81, 97, 100, 101, 111, 112], fingerprint liveness detection [65,74,75,77,106,110], fingerprint recognition and authentication [25,26,76], overlapped fingerprint separation [86], double-identity fingerprint detection [87], fingerprint ROI segmentation [88,89], fingerprint alteration detection [94], fingerprint image enhancement [20,96,107,108], latent fingerprint segmentation [83], latent fingerprint recognition [85], latent fingerprint enhancement [84], fingerprint indexing [90,91], fingerprint pore matching [70,99], partial fingerprint matching [92,93], cancelable recognition system [95], fingerprint spoofing detection [6,109], contactless to contact-based and 3D partial fingerprint images matching [104,105], fingerprint minutiae extraction [71,102,103], fingerprint pore extraction [98], fingerprint generation, and presentation attack detection [113,114], fingerprint recovery scheme [115], and fingerprint l...…”
Section: Task For Fingerprint Biometricsmentioning
confidence: 99%
“…However, these traditional machine learning methods cannot take raw features from large, annotated datasets and use them to identify the patterns buried inside them. Deep learning algorithms is a powerful approach for learning complex patterns and has led to multiple performance breakthroughs in many research fields, including computer vision [ 32 , 33 , 34 , 35 , 36 , 37 ] and natural language processing [ 38 , 39 , 40 ]. However, very few prediction models have implemented the concept of deep learning into the sgRNA off-target propensity prediction problem.…”
Section: Introductionmentioning
confidence: 99%