• Title/Summary/Keyword: locally-fixed bits

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PVD Image Steganography with Locally-fixed Number of Embedding Bits (지역적 삽입 비트를 고정시킨 PVD 영상 스테가노그래피)

  • Kim, Jaeyoung;Park, Hanhoon;Park, Jong-Il
    • Journal of Broadcast Engineering
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    • v.22 no.3
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    • pp.350-365
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    • 2017
  • Steganography is a technique for secret data communication, which is not perceived by third person between a receiver and a transmitter. It has been developed for thousands of years for the transmission of military, diplomatic or business information. The development of digital media and communication has led to the development of steganography techniques in modern times. Technic of image steganography include the LSB, which fixes the number of embedded bits into a pixel, and PVD, which exploits the difference value in the neighboring pixel pairs. In the case of PVD image steganography, a large amount of information is embedded fluidly by difference value in neighboring pixel pairs and the designed range table. However, since the secret information in order is embedded, if an error of the number of embedded bits occurs in a certain pixel pair, all subsequent information will be destroyed. In this paper, we proposes the method, which improve the vulnerability of PVD property about external attack or various noise and extract secret information. Experimental process is comparison analysis about stego-image, which embedded various noise. PVD shows that it is not possible to preserve secret information at all about noise, but it was possible to robustly extract secret information for partial noise of stego-image in case of the proposed PVD image steganography with locally-fixed number of embedding bits.

A Locally Adapative Fixed Rate DCT Image Coding (고정 부호화율의 국부적응 영상 변환부호화)

  • 심영석;고재홍;이상학
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.14 no.1
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    • pp.22-29
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    • 1989
  • An efficient fixed rate adaptive transform coding is described. Adaptivity is provided by assigning more bits to high ac energy blocks and less bits to low ac energy blocks. Practical and relatively simple adaptation scheme is developed. Overall complexity of our scheme is comparable to the Chen and Smith's scheme. The rate will be adjusted in the same manner as in fixed transform coding. Good performance of the proposed scheme is presented in terms of signal to noise ratio compared with the well known Chen&Smith's scheme. Subjective tests are also presented.

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