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access icon free Two-stream neural networks to detect manipulation of JPEG compressed images

  • Author(s): H.-G. Kim 1 ; J.-S. Park 2 ; D.-G. Kim 1 ; H.-K. Lee 2
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  • Source: Volume 54, Issue 6, 22 March 2018, p. 354 – 355
    DOI:  10.1049/el.2017.4444 , Print ISSN 0013-5194, Online ISSN 1350-911X
© The Institution of Engineering and Technology
Received 29/11/2017, Published 13/02/2018

With the rapid spread of image editing software, anyone can easily create, distribute, and forge images. Although techniques to detect image forgery have been widely studied, current techniques have significant limitations, such as specific file formats, manipulations, or compression qualities. Although deep learning techniques have been introduced to detect various manipulations, such as blurring, median filtering, and Gaussian noise, these techniques are only suitable to detect forgeries of uncompressed images, and are difficult to apply in practice because most images are compressed for distribution. Therefore, a two-stream neural network approach for image forensics that is robust to compression is proposed. The two-stream neural network is based on constrained convolutional neural network and Markov characteristics to consider compression. Experimental results show that the proposed method overcomes current technique limitations.

Inspec keywords: data compression; learning (artificial intelligence); image forensics; image coding; neural nets

Other keywords: two-stream neural network approach; rapid spread; forgeries; uncompressed images; current techniques; current technique limitations; image forgery; Gaussian noise; median filtering; significant limitations; manipulations; compression qualities; image editing software; image forensics; constrained convolutional neural network; deep learning techniques; -stream neural networks; specific file formats

Subjects: Neural computing techniques; Optical, image and video signal processing; Computer vision and image processing techniques

References

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