595 research outputs found
Face liveness detection by rPPG features and contextual patch-based CNN
Abstract. Face anti-spoofing plays a vital role in security systems including face payment systems and face recognition systems. Previous studies showed that live faces and presentation attacks have significant differences in both remote photoplethysmography (rPPG) and texture information. We propose a generalized method exploiting both rPPG and texture features for face anti-spoofing task. First, we design multi-scale long-term statistical spectral (MS-LTSS) features with variant granularities for the representation of rPPG information. Second, a contextual patch-based convolutional neural network (CP-CNN) is used for extracting global-local and multi-level deep texture features simultaneously. Finally, weight summation strategy is employed for decision level fusion of the two types of features, which allow the proposed system to be generalized for detecting not only print attack and replay attack, but also mask attack. Comprehensive experiments were conducted on five databases, namely 3DMAD, HKBU-Mars V1, MSU-MFSD, CASIA-FASD, and OULU-NPU, to show the superior results of the proposed method compared with state-of-the-art methods.Tiivistelmä. Kasvojen anti-spoofingilla on keskeinen rooli turvajärjestelmissä, mukaan lukien kasvojen maksujärjestelmät ja kasvojentunnistusjärjestelmät. Aiemmat tutkimukset osoittivat, että elävillä kasvoilla ja esityshyökkäyksillä on merkittäviä eroja sekä etävalopölymografiassa (rPPG) että tekstuuri-informaatiossa, ehdotamme yleistettyä menetelmää, jossa hyödynnetään sekä rPPG: tä että tekstuuriominaisuuksia kasvojen anti-spoofing -tehtävässä. Ensinnäkin rPPG-informaation esittämiseksi on suunniteltu monivaiheisia pitkän aikavälin tilastollisia spektrisiä (MS-LTSS) ominaisuuksia, joissa on muunneltavissa olevat granulariteetit. Toiseksi, kontekstuaalista patch-pohjaista konvoluutioverkkoa (CP-CNN) käytetään globaalin paikallisen ja monitasoisen syvään tekstuuriominaisuuksiin samanaikaisesti. Lopuksi, painoarvostusstrategiaa käytetään päätöksentekotason fuusioon, joka auttaa yleistämään menetelmää paitsi hyökkäys- ja toistoiskuille, mutta myös peittää hyökkäyksen. Kattavat kokeet suoritettiin viidellä tietokannalla, nimittäin 3DMAD, HKBU-Mars V1, MSU-MFSD, CASIA-FASD ja OULU-NPU, ehdotetun menetelmän parempien tulosten osoittamiseksi verrattuna uusimpiin menetelmiin
Learning Meta Model for Zero- and Few-shot Face Anti-spoofing
Face anti-spoofing is crucial to the security of face recognition systems.
Most previous methods formulate face anti-spoofing as a supervised learning
problem to detect various predefined presentation attacks, which need large
scale training data to cover as many attacks as possible. However, the trained
model is easy to overfit several common attacks and is still vulnerable to
unseen attacks. To overcome this challenge, the detector should: 1) learn
discriminative features that can generalize to unseen spoofing types from
predefined presentation attacks; 2) quickly adapt to new spoofing types by
learning from both the predefined attacks and a few examples of the new
spoofing types. Therefore, we define face anti-spoofing as a zero- and few-shot
learning problem. In this paper, we propose a novel Adaptive Inner-update Meta
Face Anti-Spoofing (AIM-FAS) method to tackle this problem through
meta-learning. Specifically, AIM-FAS trains a meta-learner focusing on the task
of detecting unseen spoofing types by learning from predefined living and
spoofing faces and a few examples of new attacks. To assess the proposed
approach, we propose several benchmarks for zero- and few-shot FAS. Experiments
show its superior performances on the presented benchmarks to existing methods
in existing zero-shot FAS protocols.Comment: Accepted by AAAI202
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