Xinchao Huang scite author profile

Detecting digital audio forgeries is a significant research focus in the field of audio forensics. In this article, the authors focus on a special form of digital audio forgery—copy-move—and propose a fast and effective method to detect doctored audios. First, the article segments the input audio data into syllables by voice activity detection and syllable detection. Second, the authors select the points in the frequency domain as feature by applying discrete Fourier transform (DFT) to each audio segment. Furthermore, this article sorts every segment according to the features and gets a sorted list of audio segments. In the end, the article merely compares one segment with some adjacent segments in the sorted list so that the time complexity is decreased. After comparisons with other state of the art methods, the results show that the proposed method can identify the authentication of the input audio and locate the forged position fast and effectively.

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Copy-move forgery detection using combined features and transitive matching

Lin

Huang

et al. 2018

Multimed Tools Appl

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Recently, the research of Internet of Things (IoT) and Multimedia Big Data (MBD) has been growing tremendously. Both IoT and MBD have a lot of multimedia data, which can be tampered easily. Therefore, the research of multimedia forensics is necessary. Copy-move is an important branch of multimedia forensics. In this paper, a novel copy-move forgery detection scheme using combined features and transitive matching is proposed. First, SIFT and LIOP are extracted as combined features from the input image. Second, transitive matching is used to improve the matching relationship. Third, a filtering approach using image segmentation is proposed to filter out false matches. Fourth, affine transformations are estimated between these image patches. Finally, duplicated regions are located based on those affine transformations. The experimental results demonstrate that the proposed scheme can achieve much better detection results on the public database under various attacks.

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Fast and Effective Copy-Move Detection of Digital Audio Based on Auto Segment

Huang

Liu

et al. 2019

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Xinchao Huang

Region duplication detection based on hybrid feature and evaluative clustering

Copy move forgery detection based on keypoint and patch match

Fast and Effective Copy-Move Detection of Digital Audio Based on Auto Segment

Copy-move forgery detection using combined features and transitive matching

Fast and Effective Copy-Move Detection of Digital Audio Based on Auto Segment

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