%0 Electronic Article %A J. Määttä %A A. Hadid %A M. Pietikäinen %K image quality assessment %K score level fusion %K face spoofing detection %K texture analysis %K local shape analysis %K light reflection %K facial image analysis %K fast linear classification scheme %K low-level feature descriptors %K face biometric systems %K spoofing attacks %K printing quality defects %K printing artefact characterisation %X Current face biometric systems are vulnerable to spoofing attacks. A spoofing attack occurs when a person tries to masquerade as someone else by falsifying data and thereby gaining illegitimate access. Inspired by image quality assessment, characterisation of printing artefacts and differences in light reflection, the authors propose to approach the problem of spoofing detection from texture analysis point of view. Indeed, face prints usually contain printing quality defects that can be well detected using texture and local shape features. Hence, the authors present a novel approach based on analysing facial image for detecting whether there is a live person in front of the camera or a face print. The proposed approach analyses the texture and gradient structures of the facial images using a set of low-level feature descriptors, fast linear classification scheme and score level fusion. Compared to many previous works, the authors proposed approach is robust and does not require user-cooperation. In addition, the texture features that are used for spoofing detection can also be used for face recognition. This provides a unique feature space for coupling spoofing detection and face recognition. Extensive experimental analysis on three publicly available databases showed excellent results compared to existing works. %@ 2047-4938 %T Face spoofing detection from single images using texture and local shape analysis %B IET Biometrics %D March 2012 %V 1 %N 1 %P 3-10 %I Institution of Engineering and Technology %U https://digital-library.theiet.org/;jsessionid=1jsv1ibocdsts.x-iet-live-01content/journals/10.1049/iet-bmt.2011.0009 %G EN