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Improving the Security of Reversible Data Hiding Using Multiple Histogram Modification

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  • HaiShan Chen
  • Jinye Wang
  • Yiqing Zhou
  • TingCheng Chang
  • KunQuan Shi
  • JunYing Yuan
  • Nouman Ali

Abstract

Reversible data hiding (RDH) allows carrying secret information in cover media without introducing permanent distortion. For a RDH method, the important performance measurements are embedding capacity and image quality. Since embedding capacity is an important requirement in the field of data hiding, it is necessary to consider the security of data embedding in RDH applications. In general, RDH algorithms usually prefer data embedding in simple image regions with low local complexity. As a result, image degradation is alleviated at the cost of poor embedding security. In this study, a novel RDH method is proposed to embed data into complex image regions, wherein the data hiding becomes more secure in defending against modern steganalysis. To measure regional local complexity, the harmonic mean of directional local variances is employed to combine directional pixel differences. To embed data into complex regions instead of smooth regions, multiple histogram modification is adopted and updated for optimized data embedding with higher complexity. Experiment results show that embedding security is significantly improved with a considerable amount of payload and well-preserved image quality.

Suggested Citation

  • HaiShan Chen & Jinye Wang & Yiqing Zhou & TingCheng Chang & KunQuan Shi & JunYing Yuan & Nouman Ali, 2022. "Improving the Security of Reversible Data Hiding Using Multiple Histogram Modification," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-12, January.
    • Handle: RePEc:hin:jnlmpe:7192697
    DOI: 10.1155/2022/7192697
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