2020
DOI: 10.1177/1550147719899569
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Payload location for JPEG image steganography based on co-frequency sub-image filtering

Abstract: In digital steganography, due to difficulties estimating the JPEG cover image, it is still very hard to accurately locate the hidden message embedded in a JPEG image. Therefore, this study proposes a payload location method for a category of pseudo-random scrambled JPEG image steganography. In order to estimate the quantized discrete cosine transform coefficients in the cover JPEG image, a cover JPEG image estimation method is proposed based on co-frequency sub-image filtering. The proposed payload location me… Show more

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Cited by 16 publications
(16 citation statements)
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“…Since the coefficients in the same position represent the magnitude of energy in the same frequency and the adjacent blocks in an image still have strong similarity, the coefficients in the same position of adjacent blocks still have a strong correlation. According to the property, this section will use the same method in [27] to divide the given JPEG images into 64 co-frequency sub-images, then use the maximum a posterior probability algorithm to estimate the optimal cover co-frequency sub-images, and combine them to get the optimal estimation of cover JPEG image.…”
Section: Optimal Cover Jpeg Image Estimationmentioning
confidence: 99%
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“…Since the coefficients in the same position represent the magnitude of energy in the same frequency and the adjacent blocks in an image still have strong similarity, the coefficients in the same position of adjacent blocks still have a strong correlation. According to the property, this section will use the same method in [27] to divide the given JPEG images into 64 co-frequency sub-images, then use the maximum a posterior probability algorithm to estimate the optimal cover co-frequency sub-images, and combine them to get the optimal estimation of cover JPEG image.…”
Section: Optimal Cover Jpeg Image Estimationmentioning
confidence: 99%
“…Therefore, the number of stego images is very important for locating the stego positions. Figure 7 compares the accuracies of the proposed algorithm and the payload location algorithm based on co-frequency sub-image wavelet filtering (CSW-F5 ) [27]. The 1000 stego images are generated with the same embedding path and the embedding ratio of 0.5.…”
Section: Markov Model Selectionmentioning
confidence: 99%
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“…With the presentation of the HUGO steganography algorithm [7] in 2010, adaptive steganography based on the framework of "distortion function + STC coding" has become the mainstream of image steganography. Based on this framework, researchers have successively proposed a series of adaptive steganography algorithms with high antidetection performance, which make the traditional steganalysis algorithms mostly invalid [8][9][10][11][12]. In 2012, Fridrich and Kodovský proposed the Rich Model steganalysis feature [13], which effectively improved the detection performance for HUGO steganography.…”
Section: Introductionmentioning
confidence: 99%
“…In 2019, Yang et al proposed a locating methodology based on quantitative steganalysis for this case [19]. Recently, Wang et al proposed a payload locating method based on co-frequency subimage filtering for a category of pseudo-random JPEG image steganography, such as JSteg and F5 steganography [20]. (2) In the case of that the investigator owns a single stego image, in 2012, Quach proved that the modified pixels in a stego image can be located with a lower error rate if enough independent non-random discriminant functions can be used [21].…”
Section: Introductionmentioning
confidence: 99%