Overview

"Image forgery is a growing concern in today's era of extensive use of social media. It has changed the way people normally stored, accessed and shared data. Visual imagery has impacted the routine of documenting evidences and sharing information. Amidst all this if false information in the form of doctored images are circulated, it misleads people into drawing false conclusions. Such incidents affect courtroom trials, medical and scientific research, political campaigns, fashion industry, media and social networking platforms. It therefore becomes important to differentiate between authentic and forged (or doctored or tampered) images. The common forms of image forgery include, copy-move and splicing, along with a series of post-processing operations using sophisticated yet user-friendly image editing tools for more realistic forgery. Image forensic techniques find traces of image manipulations by analyzing the image pixels, investigating camera induced and compression artefacts, studying geometrical and physics based properties of objects captured in the image. The techniques focus on active and passive detection by classifying authentic vs. doctored images and extend this to localizing the region on forgery. Earlier work on signal processing and machine learning techniques have proven effective in detecting the traces of these image manipulations. Very recently, work in the area of deep learning has showed remarkable improvements in detecting image manipulations. This work focuses on the application of (1) machine learning, (2) deep learning and (3) quantum machine learning techniques to image splicing detection. In (1), features from spliced and authentic images are engineered by applying the Kekre, discrete cosine, and the hybrid Kekre-discrete cosine transforms which are then passed onto an assortment of machine learning classifiers to classify spliced images. For (2), a novel socio-inspired twin convolutional neural network with a feature-transfer learning approach, named ""MissMarple"" is proposed to detect traces of image splicing."

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9781805271536

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