Sungjoo Suh scite author profile

Spoofing using photographs or videos is one of the most common methods of attacking face recognition and verification systems. In this paper, we propose a real-time and nonintrusive method based on the diffusion speed of a single image to address this problem. In particular, inspired by the observation that the difference in surface properties between a live face and a fake one is efficiently revealed in the diffusion speed, we exploit antispoofing features by utilizing the total variation flow scheme. More specifically, we propose defining the local patterns of the diffusion speed, the so-called local speed patterns, as our features, which are input into the linear SVM classifier to determine whether the given face is fake or not. One important advantage of the proposed method is that, in contrast to previous approaches, it accurately identifies diverse malicious attacks regardless of the medium of the image, e.g., paper or screen. Moreover, the proposed method does not require any specific user action. Experimental results on various data sets show that the proposed method is effective for face liveness detection as compared with previous approaches proposed in studies in the literature.

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3D user interface combining gaze and hand gestures for large-scale display

Yoo

Han

Choi

et al. 2010

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SVD Face: Illumination-Invariant Face Representation

Kim

Suh

Hwang

et al. 2014

IEEE Signal Process. Lett.

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Printer and scanner forensics

Chiang

Khanna

Mikkilineni

et al. 2009

IEEE Signal Process. Mag.

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Information embedding and extraction for electrophotographic printing processes

Mikkilineni

Chiang

Suh

et al. 2006

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In today's digital world securing different forms of content is very important in terms of protecting copyright and verifying authenticity. One example is watermarking of digital audio and images. We believe that a marking scheme analogous to digital watermarking but for documents is very important. In this paper we describe the use of laser amplitude modulation in electrophotographic printers to embed information in a text document. In particular we describe an embedding and detection process which allows the embedding of 1 bit in a single line of text. For a typical 12 point document, 33 bits can be embedded per page.

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Sungjoo Suh

Face Liveness Detection From a Single Image via Diffusion Speed Model

3D user interface combining gaze and hand gestures for large-scale display

SVD Face: Illumination-Invariant Face Representation

Printer and scanner forensics

Information embedding and extraction for electrophotographic printing processes

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