使用基于灰度级共现矩阵的纹理特征和哈拉里克特征的低维特征向量进行图像拼接检测

IF 3.4 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Debjit Das, Ruchira Naskar
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引用次数: 0

摘要

数字图像伪造已经变得非常普遍,因为普通大众已经可以广泛获得大量易于使用、成本低廉的图像处理工具。这些伪造图像可被用于各种恶意目的,如损害知名人士的社会声誉、进行身份欺诈造成经济损失,以及其他许多非法活动。图像拼接是图像伪造的一种形式,敌方通过智能方式将多个源图像中的部分组合在一起,生成看起来自然的人工图像。图像拼接攻击的检测是取证领域的一项公开挑战,在最近的文献中,已经介绍了一些关于图像拼接检测的重要研究成果。然而,这些研究中记录的特征数量非常庞大。我们的目标是在将图像拼接检测建模为分类问题的同时,解决特征集优化问题,并保持最先进的伪造检测效率。本文提出了一种基于输入图像灰度共现矩阵(GLCM)计算出的纹理特征和哈拉里克特征的图像拼接检测方案,并对检测到的拼接图像中的拼接区域进行定位。我们对著名的哥伦比亚图像拼接检测评估数据集和 DSO-1 数据集进行了探索,DSO-1 数据集更具挑战性,因为它包含了经过后处理的彩色图像。实验结果证明,我们提出的模型在图像拼接检测中的准确率达到 95%,AUC 得分为 0.99,而优化特征集的维数仅为 15。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Image splicing detection using low-dimensional feature vector of texture features and Haralick features based on Gray Level Co-occurrence Matrix

Digital image forgery has become hugely widespread, as numerous easy-to-use, low-cost image manipulation tools have become widely available to the common masses. Such forged images can be used with various malicious intentions, such as to harm the social reputation of renowned personalities, to perform identity fraud resulting in financial disasters, and many more illegitimate activities. Image splicing is a form of image forgery where an adversary intelligently combines portions from multiple source images to generate a natural-looking artificial image. Detection of image splicing attacks poses an open challenge in the forensic domain, and in recent literature, several significant research findings on image splicing detection have been described. However, the number of features documented in such works is significantly huge. Our aim in this work is to address the issue of feature set optimization while modeling image splicing detection as a classification problem and preserving the forgery detection efficiency reported in the state-of-the-art. This paper proposes an image-splicing detection scheme based on textural features and Haralick features computed from the input image’s Gray Level Co-occurrence Matrix (GLCM) and also localizes the spliced regions in a detected spliced image. We have explored the well-known Columbia Image Splicing Detection Evaluation Dataset and the DSO-1 dataset, which is more challenging because of its constituent post-processed color images. Experimental results prove that our proposed model obtains 95% accuracy in image splicing detection with an AUC score of 0.99, with an optimized feature set of dimensionality of 15 only.

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来源期刊
Signal Processing-Image Communication
Signal Processing-Image Communication 工程技术-工程:电子与电气
CiteScore
8.40
自引率
2.90%
发文量
138
审稿时长
5.2 months
期刊介绍: Signal Processing: Image Communication is an international journal for the development of the theory and practice of image communication. Its primary objectives are the following: To present a forum for the advancement of theory and practice of image communication. To stimulate cross-fertilization between areas similar in nature which have traditionally been separated, for example, various aspects of visual communications and information systems. To contribute to a rapid information exchange between the industrial and academic environments. The editorial policy and the technical content of the journal are the responsibility of the Editor-in-Chief, the Area Editors and the Advisory Editors. The Journal is self-supporting from subscription income and contains a minimum amount of advertisements. Advertisements are subject to the prior approval of the Editor-in-Chief. The journal welcomes contributions from every country in the world. Signal Processing: Image Communication publishes articles relating to aspects of the design, implementation and use of image communication systems. The journal features original research work, tutorial and review articles, and accounts of practical developments. Subjects of interest include image/video coding, 3D video representations and compression, 3D graphics and animation compression, HDTV and 3DTV systems, video adaptation, video over IP, peer-to-peer video networking, interactive visual communication, multi-user video conferencing, wireless video broadcasting and communication, visual surveillance, 2D and 3D image/video quality measures, pre/post processing, video restoration and super-resolution, multi-camera video analysis, motion analysis, content-based image/video indexing and retrieval, face and gesture processing, video synthesis, 2D and 3D image/video acquisition and display technologies, architectures for image/video processing and communication.
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