High-capacity multi-MSB predictive reversible data hiding in encrypted domain for triangular mesh models

IF 2.6 4区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Visual Communication and Image Representation Pub Date : 2024-08-01 DOI:10.1016/j.jvcir.2024.104246

Guoyou Zhang , Xiaoxue Cheng , Fan Yang , Anhong Wang , Xuenan Zhang , Li Liu

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Abstract

Reversible data hiding in encrypted domain (RDH-ED) is widely used in sensitive fields such as privacy protection and copyright authentication. However, the embedding capacity of existing methods is generally low due to the insufficient use of model topology. In order to improve the embedding capacity, this paper proposes a high-capacity multi-MSB predictive reversible data hiding in encrypted domain (MMPRDH-ED). Firstly, the 3D model is subdivided by triangular mesh subdivision (TMS) algorithm, and its vertices are divided into reference set and embedded set. Then, in order to make full use of the redundant space of embedded vertices, Multi-MSB prediction (MMP) and Multi-layer Embedding Strategy (MLES) are used to improve the capacity. Finally, stream encryption technology is used to encrypt the model and data to ensure data security. The experimental results show that compared with the existing methods, the embedding capacity of MMPRDH-ED is increased by 53 %, which has higher advantages.

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三角形网格模型加密域中的大容量多 MSB 预测可逆数据隐藏

加密域中的可逆数据隐藏（RDH-ED）被广泛应用于隐私保护和版权认证等敏感领域。然而，由于没有充分利用模型拓扑，现有方法的嵌入能力普遍较低。为了提高嵌入能力，本文提出了一种高容量的加密域多MSB预测可逆数据隐藏（MMPRDH-ED）。首先，利用三角形网格细分算法（TMS）对三维模型进行细分，将其顶点分为参考集和嵌入集。然后，为了充分利用嵌入顶点的冗余空间，采用了多多字节预测（MMP）和多层嵌入策略（MLES）来提高容量。最后，采用流加密技术对模型和数据进行加密，确保数据安全。实验结果表明，与现有方法相比，MMPRDH-ED 的嵌入容量提高了 53%，具有更高的优势。

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来源期刊

Journal of Visual Communication and Image Representation 工程技术-计算机：软件工程

CiteScore

5.40

自引率

11.50%

发文量

188

审稿时长

9.9 months

期刊介绍： The Journal of Visual Communication and Image Representation publishes papers on state-of-the-art visual communication and image representation, with emphasis on novel technologies and theoretical work in this multidisciplinary area of pure and applied research. The field of visual communication and image representation is considered in its broadest sense and covers both digital and analog aspects as well as processing and communication in biological visual systems.