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Smartphone Camera Identification from Low-Mid Frequency DCT Coefficients of Dark Images

Adriana Berdich, Bogdan Groza

2022Entropy17 citationsDOIOpen Access PDF

Abstract

Camera sensor identification can have numerous forensics and authentication applications. In this work, we follow an identification methodology for smartphone camera sensors using properties of the Dark Signal Nonuniformity (DSNU) in the collected images. This requires taking dark pictures, which the users can easily do by keeping the phone against their palm, and has already been proposed by various works. From such pictures, we extract low and mid frequency AC coefficients from the DCT (Discrete Cosine Transform) and classify the data with the help of machine learning techniques. Traditional algorithms such as KNN (K-Nearest Neighbor) give reasonable results in the classification, but we obtain the best results with a wide neural network, which, despite its simplicity, surpassed even a more complex network architecture that we tried. Our analysis showed that the blue channel provided the best separation, which is in contrast to previous works that have recommended the green channel for its higher encoding power.

Topics & Concepts

Discrete cosine transformComputer scienceArtificial intelligenceIdentification (biology)Authentication (law)Pattern recognition (psychology)Computer visionArtificial neural networkChannel (broadcasting)Image (mathematics)Computer securityTelecommunicationsBotanyBiologyDigital Media Forensic DetectionAdvanced Steganography and Watermarking TechniquesImage Processing Techniques and Applications