30 research outputs found
PipeNet: Selective Modal Pipeline of Fusion Network for Multi-Modal Face Anti-Spoofing
Face anti-spoofing has become an increasingly important and critical security
feature for authentication systems, due to rampant and easily launchable
presentation attacks. Addressing the shortage of multi-modal face dataset,
CASIA recently released the largest up-to-date CASIA-SURF Cross-ethnicity Face
Anti-spoofing(CeFA) dataset, covering 3 ethnicities, 3 modalities, 1607
subjects, and 2D plus 3D attack types in four protocols, and focusing on the
challenge of improving the generalization capability of face anti-spoofing in
cross-ethnicity and multi-modal continuous data. In this paper, we propose a
novel pipeline-based multi-stream CNN architecture called PipeNet for
multi-modal face anti-spoofing. Unlike previous works, Selective Modal Pipeline
(SMP) is designed to enable a customized pipeline for each data modality to
take full advantage of multi-modal data. Limited Frame Vote (LFV) is designed
to ensure stable and accurate prediction for video classification. The proposed
method wins the third place in the final ranking of Chalearn Multi-modal
Cross-ethnicity Face Anti-spoofing Recognition Challenge@CVPR2020. Our final
submission achieves the Average Classification Error Rate (ACER) of 2.21 with
Standard Deviation of 1.26 on the test set.Comment: Accepted to appear in CVPR2020 WM
Gaze-based Presentation Attack Detection for Users Wearing Tinted Glasses
Biometric authentication is vulnerable to presentation (spoofing) attacks. It is important to address the security vulnerability of spoofing attacks where an attacker uses an artefact presented at the sensor to subvert the system. Gaze-tracking has been proposed for such attack detection. In this paper, we explore the sensitivity of a gaze-based approach to spoofing detection in the presence of eye-glasses that may impact detection performance. In particular, we investigate the use of partially tinted glasses such as may be used in hazardous environments or outdoors in mobile application scenarios The attack scenarios considered in this work include the use of projected photos, 2D and 3D masks. A gaze-based spoofing detection system has been extensively evaluated using data captured from volunteers performing genuine attempts (with and without wearing such tinted glasses) as well as spoofing attempts using various artefacts. The results of the evaluations indicate that the presence of tinted glasses has a small impact on the accuracy of attack detection, thereby making the use of such gaze-based features possible for a wider range of applications
LBP-TOP based countermeasure against face spoofing attacks
User authentication is an important step to protect information and in this eld face biometrics is advantageous. Face biometrics is natural, easy to use and less human-invasive. Unfortunately, recent work has revealed that face biometrics is vulnerable to spoofing attacks using low-tech cheap equipments. This article presents a countermeasure against such attacks based on the LBP-TOP operator combining both space and time information into a single multiresolution texture descriptor. Experiments carried out with the REPLAY ATTACK database show a Half Total Error Rate (HTER) improvement from 15:16% to 7:60%