在云计算中利用局部主导模式和水印加密技术实现基于内容的安全高效图像检索

G. Sucharitha, Deepthi Godavarthi, Janjhyam Venkata Naga Ramesh, M. Ijaz Khan
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引用次数: 0

摘要

图像在人们日常生活中的重要性与日俱增,而基于内容的图像检索(CBIR)在研究中受到了广泛关注。与文本文档相比,图像的信息传达能力更强。本文探讨了基于云图像局部主导模式提取的纹理特征的安全、高效图像检索。在此,我们提出了一种支持云端安全高效图像检索的方法。在将图像数据库部署到云端之前,先用水印对图像进行加密,这一过程可防止敏感信息外流到云端。利用相对方向边缘模式(RDEP)为所有图像创建了一个缩减维度的特征向量数据库,从而提高了存储和检索效率。指定的局部模式对于有效提取纹理信息的重要性已得到证实。与现有算法相比,在精确度和召回率方面都达到了显著的准确水平。此外,还提出了一种基于水印的系统,以防止未经授权的查询用户非法复制和向他人传播获取的图像。在将图像存储到云端之前,加密模块会在图像中植入不可模仿的水印。因此,当发现图像拷贝时,可以通过提取水印来追踪传播图像的非法查询用户。通过与其他包含水印加密的现有特征提取器进行比较,评估了所提出方法的重要性。此外,还展示了该方法在不同水印位数下的有效性。试验和安全分析表明,建议的方法既稳健又高效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Secure and efficient content-based image retrieval using dominant local patterns and watermark encryption in cloud computing

Secure and efficient content-based image retrieval using dominant local patterns and watermark encryption in cloud computing

The relevance of images in people's daily lives is growing, and content-based image retrieval (CBIR) has received a lot of attention in research. Images are much better at communicating information than text documents. This paper deals with security and efficient retrieval of images based on the texture features extracted by the dominant local patterns of an image in cloud. Here, we proposed a method that supports secure and efficient image retrieval over cloud. The images are encrypted with the watermark before deploying the image database to the cloud, this process prevents from the outflow of sensitive information to the cloud. A reduced dimension feature vector database has been created for all the images using relative directional edge patterns (RDEP), facilitating efficient storage and retrieval. The significance of the specified local pattern for effectively extracting texture information has been demonstrated. A notable level of accuracy has been established when compared to existing algorithms in terms of precision and recall. Additionally, a watermark-based system is proposed to prevent unauthorized query users from illicitly copying and distributing the acquired images to others. An inimitable watermark is entrenched into the image by the encryption module before storing into the cloud. Hence, when an image copy is discovered, the watermark extraction can be used to track down the illegal query image user who circulated the image. The proposed method's significance is assessed by comparing it to other existing feature extractors incorporating watermark encryption. Additionally, the effectiveness of the method is demonstrated across various numbers of watermark bits. Trials and security analyses affirm that the suggested approach is both robust and efficient.

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