Face Morphing Attack Generation and Detection: A Comprehensive Survey

Venkatesh, Sushma; Ramachandra, Raghavendra; Raja, Kiran B.; Busch, Christoph

doi:10.1109/tts.2021.3066254

Cited by 88 publications

(70 citation statements)

References 88 publications

(119 reference statements)

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“…There has been recently a large amount of research in the field of face morphing. Comprehensive surveys have been published in [70,74] including both morphing techniques and also morphing attack detectors. In general, the following three consecutive stages are considered in the generation process of face morphing images: (i) determining correspondences between the face images of the different subjects.…”

Section: Face Morphingmentioning

confidence: 99%

An Introduction to Digital Face Manipulation

Tolosana

Vera-Rodríguez

Fiérrez

et al. 2022

Handbook of Digital Face Manipulation and Detection

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Digital manipulation has become a thriving topic in the last few years, especially after the popularity of the term DeepFakes. This chapter introduces the prominent digital manipulations with special emphasis on the facial content due to their large number of possible applications. Specifically, we cover the principles of six types of digital face manipulations: (i) entire face synthesis, (ii) identity swap, (iii) face morphing, (iv) attribute manipulation, (v) expression swap (a.k.a. face reenactment or talking faces), and (vi) audio- and text-to-video. These six main types of face manipulation are well established by the research community, having received the most attention in the last few years. In addition, we highlight in this chapter publicly available databases and code for the generation of digital fake content.

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Section: Face Morphingmentioning

confidence: 99%

An Introduction to Digital Face Manipulation

Tolosana

Vera-Rodríguez

Fiérrez

et al. 2022

Handbook of Digital Face Manipulation and Detection

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“…The resulting images are of high quality without artefact in the background. As we mentioned before, after creation of the morphed images, all the faces were cropped using a modified dlib face detector implementation 6 . Figure 6 shows examples of the FERET cropped face database.…”

Section: Databasesmentioning

confidence: 99%

“…A morphing attack's success depends on the decision of human observers, especially a passport identification expert. The real-life application for a border police expert who compares the passport reference image of the traveller (digital extracted from the embedded chip) with the facial appearance of the traveller [6] is too hard because of the improvements of the morphing tools and because of the difficulty for the human expert to localise facial areas, in which morphing artefacts are present. This work proposes to add an extra stage of feature selection after feature extraction based on Mutual Information M I to estimate and keep the most relevant and remove the most redundant features from the face images to separate bona fide and morphed images on a S-MAD scenario.…”

Section: Introductionmentioning

confidence: 99%

Single Morphing Attack Detection Using Feature Selection and Visualization Based on Mutual Information

Tapia¹,

Busch

2021

IEEE Access

Self Cite

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Face morphing attack detection is a challenging task. Automatic classification methods and manual inspection are realised in automatic border control gates to detect morphing attacks. Understanding how a machine learning system can detect morphed faces and the most relevant facial areas is crucial. Those relevant areas contain texture signals that allow us to separate the bona fide and the morph images. Also, it helps in the manual examination to detect a passport generated with morphed images. This paper explores features extracted from intensity, shape, texture, and proposes a feature selection stage based on the Mutual Information filter to select the most relevant and less redundant features. This selection allows us to reduce the workload and know the exact localisation of such areas to understand the morphing impact and create a robust classifier. The best results were obtained for the method based on Conditional Mutual Information and Shape features using only 500 features for FERET images and 800 features for FRGCv2 images from 1,048 features available. The eyes and nose are identified as the most critical areas to be analysed.INDEX TERMS morphing, differential morphing attack detection, feature selection.

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“…Overall, existing works have demonstrated, beyond doubt, that “morphing” is a threat for face recognition systems. Several survey papers have also highlighted the vulnerability of face recognition algorithm against digital manipulation and limitations of existing detection algorithms ( Akhtar et al, 2019 ; Scherhag et al, 2019 ; Singh et al, 2020 ; Tolosana et al, 2020 ; Venkatesh et al, 2020 ). The survey papers bring out the boundaries of existing detection algorithms such as non-generalizability against manipulation types and image resolution and computationally inefficiency.…”

Section: Related Workmentioning

confidence: 99%

MagNet: Detecting Digital Presentation Attacks on Face Recognition

Singh

Vatsa

Noore

2021

Front. Artif. Intell.

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Presentation attacks on face recognition systems are classified into two categories: physical and digital. While much research has focused on physical attacks such as photo, replay, and mask attacks, digital attacks such as morphing have received limited attention. With the advancements in deep learning and computer vision algorithms, several easy-to-use applications are available where with few taps/clicks, an image can be easily and seamlessly altered. Moreover, generation of synthetic images or modifying images/videos (e.g. creating deepfakes) is relatively easy and highly effective due to the tremendous improvement in generative machine learning models. Many of these techniques can be used to attack the face recognition systems. To address this potential security risk, in this research, we present a novel algorithm for digital presentation attack detection, termed as MagNet, using a “Weighted Local Magnitude Pattern” (WLMP) feature descriptor. We also present a database, termed as IDAgender, which consists of three different subsets of swapping/morphing and neural face transformation. In contrast to existing research, which utilizes sophisticated machine learning networks for attack generation, the databases in this research are prepared using social media platforms that are readily available to everyone with and without any malicious intent. Experiments on the proposed database, FaceForensic database, GAN generated images, and real-world images/videos show the stimulating performance of the proposed algorithm. Through the extensive experiments, it is observed that the proposed algorithm not only yields lower error rates, but also provides computational efficiency.

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Face Morphing Attack Generation and Detection: A Comprehensive Survey

Cited by 88 publications

References 88 publications

An Introduction to Digital Face Manipulation

An Introduction to Digital Face Manipulation

Single Morphing Attack Detection Using Feature Selection and Visualization Based on Mutual Information

MagNet: Detecting Digital Presentation Attacks on Face Recognition

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