Generate, Segment, and Refine: Towards Generic Manipulation Segmentation

Zhou, Peng; Chen, Bor-Chun; Han, Xintong; Najibi, Mahyar; Shrivastava, Abhinav; Lim, Ser-Nam; Davis, Larry S.

doi:10.1609/aaai.v34i07.7007

Cited by 72 publications

(73 citation statements)

References 25 publications

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“…First, when we know what original images should be and are very strict about the manipulations (i.e., any image processing operation is considered suspicious and not tolerable, for example in law enforcement), our approaches could be directly applied in a sliding window manner to locate the suspicious patches. Second, even if routine manipulations can be tolerated, it is in general believed that there may still exist special forgery traces within the fake region and near the fake region boundary, in for example splicing and copy-move forgeries [41,42]. Therefore, still with the application of our approaches on small local patches in a sliding window manner, additionally combined with an efficient clustering algorithm on the extracted features of a manipulation detection CNN, we may be able to locate the fake regions in image forgeries.…”

Section: Discussionmentioning

confidence: 99%

Convolutional neural network initialization approaches for image manipulation detection

Camacho

Wang

2022

Digital Signal Processing

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Section: Discussionmentioning

confidence: 99%

Convolutional neural network initialization approaches for image manipulation detection

Camacho

Wang

2022

Digital Signal Processing

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“…The proposed end-to-end network used the Noiseprint [ 84 ] as features extracted from the image input. Meanwhile, in [ 91 ] a GAN was proposed to generate falsified images avoiding the burdensome task of creating and labeling image forgery examples in a conventional way. With this big number of synthetic examples, the proposed algorithm was able to segment and refine the focus on boundary artifacts around falsified regions during the training process.…”

Section: Falsification Detectionmentioning

confidence: 99%

A Comprehensive Review of Deep-Learning-Based Methods for Image Forensics

Camacho

Wang

2021

J. Imaging

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Seeing is not believing anymore. Different techniques have brought to our fingertips the ability to modify an image. As the difficulty of using such techniques decreases, lowering the necessity of specialized knowledge has been the focus for companies who create and sell these tools. Furthermore, image forgeries are presently so realistic that it becomes difficult for the naked eye to differentiate between fake and real media. This can bring different problems, from misleading public opinion to the usage of doctored proof in court. For these reasons, it is important to have tools that can help us discern the truth. This paper presents a comprehensive literature review of the image forensics techniques with a special focus on deep-learning-based methods. In this review, we cover a broad range of image forensics problems including the detection of routine image manipulations, detection of intentional image falsifications, camera identification, classification of computer graphics images and detection of emerging Deepfake images. With this review it can be observed that even if image forgeries are becoming easy to create, there are several options to detect each kind of them. A review of different image databases and an overview of anti-forensic methods are also presented. Finally, we suggest some future working directions that the research community could consider to tackle in a more effective way the spread of doctored images.

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“…Unsurprisingly, the state-of-the-arts are deep learning based [1,15,23,28,29,31], specifically focusing on pixellevel manipulation detection [23,28,31]. With only two classes (manipulated versus authentic) in consideration, the task appears to be a simplified case of image semantic segmentation.…”

Section: Introductionmentioning

confidence: 99%

“…However, an off-the-shelf semantic segmentation network is suboptimal for the task, as it is designed to capture semantic information, making the network datasetdependent and do not generalize. Prior research [31] re-Figure 1. Image manipulation detection by the state-of-thearts.…”

Section: Introductionmentioning

confidence: 99%

“…Depending on at what stage the suppression occurs, we categorize existing methods into two groups, i.e. noise-view methods [15,17,28,29,32] and edge-supervised methods [23,31]. Given the hypothesis that novel elements introduced by slicing and/or inpainting differ from the authentic part in terms of their noise distributions, the first group of methods aim to exploit such discrepancy.…”

Section: Introductionmentioning

confidence: 99%

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Image Manipulation Detection by Multi-View Multi-Scale Supervision

Chen¹,

Chengbo²,

Ji³

et al. 2021

Preprint

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The key challenge of image manipulation detection is how to learn generalizable features that are sensitive to manipulations in novel data, whilst specific to prevent false alarms on authentic images. Current research emphasizes the sensitivity, with the specificity overlooked. In this paper we address both aspects by multi-view feature learning and multi-scale supervision. By exploiting noise distribution and boundary artifact surrounding tampered regions, the former aims to learn semantic-agnostic and thus more generalizable features. The latter allows us to learn from authentic images which are nontrivial to taken into account by current semantic segmentation network based methods. Our thoughts are realized by a new network which we term MVSS-Net. Extensive experiments on five benchmark sets justify the viability of MVSS-Net for both pixel-level and image-level manipulation detection.

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Generate, Segment, and Refine: Towards Generic Manipulation Segmentation

Cited by 72 publications

References 25 publications

Convolutional neural network initialization approaches for image manipulation detection

Convolutional neural network initialization approaches for image manipulation detection

A Comprehensive Review of Deep-Learning-Based Methods for Image Forensics

Image Manipulation Detection by Multi-View Multi-Scale Supervision

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