Unveiling image source: Instance-level camera device linking via context-aware deep Siamese network

IF 7.5 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Expert Systems with Applications Pub Date : 2024-10-29 DOI:10.1016/j.eswa.2024.125617

Mingjie Zheng , Ngai Fong Law , Wan-Chi Siu

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引用次数: 0

Abstract

Unveiling the source of an image is one of the most effective ways to validate the originality, authenticity, and reliability in the field of digital forensics. Source camera device identification can identify the specific camera device used to take a photo under investigation. While great progress has been made by the photo-response non-uniformity (PRNU)-based methods over the past decade, the challenge of instance-level source camera device linking, which verifies whether two images in question were captured by the same camera device, remains significant. This challenge is mainly due to the absence of auxiliary images to construct a clean camera fingerprint for each camera, particularly dealing with small image sizes. To overcome this limitation, in this paper, we formulate the task of source device linking as a binary classification problem and propose a simple yet effective framework based on a context-aware deep Siamese network. We take advantage of a Siamese architecture to extract the intrinsic camera device-related noise patterns from a pair of image patches in parallel for comparisons without any auxiliary images. Moreover, a recurrent criss-cross group is utilized to aggregate contextual information in the noise residual maps to alleviate the problem that PRNU noise maps are easily contaminated by the additive noises from image contents. For reliable device linking, we employ a patch-selection strategy on a pair of test images to adaptively choose suitable image patch pairs according to image contents. The final decision of a pair of test images is obtained from the average similarity score of the selected image patch pairs. Compared with existing state-of-the-art methods, our proposed framework can achieve better performance on both the tasks of source camera identification and source device linking without any prior knowledge, i.e., reliable camera fingerprints, regardless of whether the camera devices are “seen” or “unseen” in the training stage. The experimental results on two standard image forensic datasets demonstrate that the proposed method not only shows robustness with respect to different image patch sizes and image quality degenerations, but also has a generalization ability across digital camera and smartphone devices.

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揭开图像源的面纱：通过上下文感知深度连体网络实现实例级摄像头设备链接

在数字取证领域，揭示图像来源是验证原始性、真实性和可靠性的最有效方法之一。源相机设备识别可以确定用于拍摄调查照片的特定相机设备。虽然基于照片响应不均匀性（PRNU）的方法在过去十年中取得了长足进步，但实例级源相机设备链接（即验证两张相关图像是否由同一相机设备拍摄）的挑战依然严峻。这一挑战主要是由于缺乏辅助图像来为每台相机构建清晰的相机指纹，尤其是在处理小尺寸图像时。为了克服这一局限性，我们在本文中将源设备链接任务表述为一个二元分类问题，并提出了一个基于上下文感知深度连体网络的简单而有效的框架。我们利用连体网络结构的优势，从一对图像斑块中并行提取与相机设备相关的固有噪声模式，以便在没有任何辅助图像的情况下进行比较。此外，我们还利用递归十字交叉组来汇总噪声残差图中的上下文信息，以缓解 PRNU 噪声图容易被图像内容的加性噪声污染的问题。为了实现可靠的设备链接，我们在一对测试图像上采用了补丁选择策略，根据图像内容自适应地选择合适的图像补丁对。一对测试图像的最终判定是通过所选图像补丁对的平均相似度得分得出的。与现有的先进方法相比，我们提出的框架在没有任何先验知识（即可靠的相机指纹）的情况下，无论相机设备在训练阶段是 "可见 "还是 "未见"，都能在源相机识别和源设备链接这两项任务上取得更好的性能。在两个标准图像取证数据集上的实验结果表明，所提出的方法不仅在不同图像补丁大小和图像质量退化方面表现出鲁棒性，而且具有跨数码相机和智能手机设备的泛化能力。

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

Expert Systems with Applications 工程技术-工程：电子与电气

CiteScore

13.80

自引率

10.60%

发文量

2045

审稿时长

8.7 months

期刊介绍： Expert Systems With Applications is an international journal dedicated to the exchange of information on expert and intelligent systems used globally in industry, government, and universities. The journal emphasizes original papers covering the design, development, testing, implementation, and management of these systems, offering practical guidelines. It spans various sectors such as finance, engineering, marketing, law, project management, information management, medicine, and more. The journal also welcomes papers on multi-agent systems, knowledge management, neural networks, knowledge discovery, data mining, and other related areas, excluding applications to military/defense systems.