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SynFi: Automatic Synthetic Fingerprint Generation
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SynFi: Automatic Synthetic Fingerprint Generation
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Authentication and identification methods based on human fingerprints are ubiquitous in several systems ranging from government organizations to consumer products. The performance and reliability of such systems directly rely on the volume of data on which they have been verified. Unfortunately, a large volume of fingerprint databases is not publicly available due to many privacy and security concerns. In this paper, we introduce a new approach to automatically generate high-fidelity synthetic fingerprints at scale. Our approach relies on (i) Generative Adversarial Networks to estimate the probability distribution of human fingerprints and (ii) Super-Resolution methods to synthesize fine-grained textures. We rigorously test our system and show that our methodology is the first to generate fingerprints that are computationally indistinguishable from real ones, a task that prior art could not accomplish.
Forward citations
Cited by 2 Pith papers
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Identity-Consistent Multi-Pose Generation of Contactless Fingerprints
IMPOSE generates identity-consistent multi-pose contactless fingerprints via latent diffusion, Sauvola-guided translation, and 3D finger model projection, enabling SOTA cross-modal matching with EER reduced to 8.74% o...
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Intra-finger Variability of Diffusion-based Latent Fingerprint Generation
Diffusion-generated synthetic latent fingerprints largely preserve finger identity but introduce small local minutiae inconsistencies and global ridge hallucinations when style or reference quality is mismatched.
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