Perceptual Image Hashing Using Feature Fusion of Orthogonal Moments

IF 8.4 1区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Xinran Li;Zichi Wang;Guorui Feng;Xinpeng Zhang;Chuan Qin
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引用次数: 0

Abstract

Due to the limited number of stable image feature descriptors and the simplistic concatenation approach to hash generation, existing hashing methods have not achieved a satisfactory balance between robustness and discrimination. To this end, a novel perceptual hashing method is proposed in this paper using feature fusion of fractional-order continuous orthogonal moments (FrCOMs). Specifically, two robust image descriptors, i.e., fractional-order Chebyshev Fourier moments (FrCHFMs) and fractional-order radial harmonic Fourier moments (FrRHFMs), are used to extract global structural features of a color image. Then, the canonical correlation analysis (CCA) strategy is employed to fuse these features during the final hash generation process. Compared to direct concatenation, CCA excels in eliminating redundancies between feature vectors, resulting in a shorter hash sequence and higher authentication performance. A series of experiments demonstrate that the proposed method achieves satisfactory robustness, discrimination and security. Particularly, the proposed method exhibits better tampering detection ability and robustness against combined content-preserving manipulations in practical applications.
利用正交矩的特征融合进行感知图像加密
由于稳定的图像特征描述子数量有限,以及哈希生成的简单连接方法,现有的哈希方法并没有在鲁棒性和辨别力之间取得令人满意的平衡。为此,本文利用分数阶连续正交矩(FrCOMs)的特征融合,提出了一种新型的感知哈希方法。具体来说,本文使用两个鲁棒图像描述符,即分数阶切比雪夫傅里叶矩(FrCHFMs)和分数阶径向谐波傅里叶矩(FrRHFMs),来提取彩色图像的全局结构特征。然后,在最终哈希生成过程中,采用典型相关分析(CCA)策略对这些特征进行融合。与直接连接相比,CCA 擅长消除特征向量之间的冗余,从而缩短哈希序列并提高验证性能。一系列实验证明,所提出的方法具有令人满意的鲁棒性、辨别力和安全性。特别是在实际应用中,所提出的方法表现出更好的篡改检测能力和对组合内容保护操作的鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IEEE Transactions on Multimedia
IEEE Transactions on Multimedia 工程技术-电信学
CiteScore
11.70
自引率
11.00%
发文量
576
审稿时长
5.5 months
期刊介绍: The IEEE Transactions on Multimedia delves into diverse aspects of multimedia technology and applications, covering circuits, networking, signal processing, systems, software, and systems integration. The scope aligns with the Fields of Interest of the sponsors, ensuring a comprehensive exploration of research in multimedia.
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