Abstract
Image hash is an alternative to cryptographic hash functions for checking integrity of digital images. Compared to cryptographic hash functions, an image hash or a Perceptual Hash Function (PHF) is resilient to content preserving distortions and sensitive to malicious tampering. In this paper, a robust and secure image hashing technique using a Gaussian pyramid is proposed. A Gaussian pyramid decomposes an image into different resolution levels which can be utilized to obtain robust and compact hash features. These stable features have been utilized in the proposed work to construct a secure and robust image hash. The proposed scheme uses Laplacian of Gaussian (LOG) and disk filters to filter the low-resolution Gaussian decomposed image. The filtered images are then subtracted and their difference is used as a hash. To make the hash secure, a key is introduced before feature extraction, thus making the entire feature space random. The proposed hashing scheme has been evaluated through a number of experiments involving cases of non-malicious distortions and malicious tampering. Experimental results reveal that the proposed hashing scheme is robust against non-malicious distortions and is sensitive to detect minute malicious tampering. Moreover, False Positive Probability (FPP) and False Negative Probability (FNP) results demonstrate the effectiveness of the proposed scheme when compared to state-of-the-art image hashing algorithms proposed in the literature.
Highlights
In recent years, there has been tremendous advancement in multimedia technologies that encompasses images, video and audio [1,2,3]
The proposed scheme uses fourth level Gaussian pyramid decomposition to generate a hash size of 16 × 16, obtaining a compact hash consisting of only 256 entries for an image of size 256 × 256
To enhance security of the algorithm, random noise is added to the input image making the entire hash feature space random
Summary
There has been tremendous advancement in multimedia technologies that encompasses images, video and audio [1,2,3]. A new image hashing scheme is proposed that generates a compact image hash having the ability to detect minute level tampering, offers high robustness to non-malicious distortions and is secure. To obtain these properties, Gaussian pyramid decomposition of the input image is performed. This makes base level of the pyramid to become a random matrix which is a function of the input image (whose hash is to be calculated) and the random noise which is a function of the secret key shared between the sender and receiver With this brief overview of the proposed scheme, the main contributions of this paper are as follows: 2.
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