Combining PRNU and noiseprint for robust and efficient device source identification-Reference-Cited by-同舟云学术

Combining PRNU and noiseprint for robust and efficient device source identification

Published:2020-02-12 Issue:1 Volume:2020 Page:
ISSN:2510-523X
Container-title:EURASIP Journal on Information Security
language:en
Short-container-title:EURASIP J. on Info. Security

Author:

Cozzolino Davide,Marra Francesco,Gragnaniello Diego,Poggi Giovanni,Verdoliva Luisa

Abstract

AbstractPRNU-based image processing is a key asset in digital multimedia forensics. It allows for reliable device identification and effective detection and localization of image forgeries, in very general conditions. However, performance impairs significantly in challenging conditions involving low quality and quantity of data. These include working on compressed and cropped images or estimating the camera PRNU pattern based on only a few images. To boost the performance of PRNU-based analyses in such conditions, we propose to leverage the image noiseprint, a recently proposed camera-model fingerprint that has proved effective for several forensic tasks. Numerical experiments on datasets widely used for source identification prove that the proposed method ensures a significant performance improvement in a wide range of challenging situations.

Funder

Defense Advanced Research Projects Agency

Publisher

Springer Science and Business Media LLC

Subject

Computer Science Applications,Signal Processing

Link

http://link.springer.com/content/pdf/10.1186/s13635-020-0101-7.pdf

Reference25 articles.

1. J. Lukàš, J. Fridrich, M. Goljan, Digital camera identification from sensor pattern noise. IEEE Trans. Inf. Forensic Secur.1(2), 205–214 (2006).

2. M. Chen, J. Fridrich, M. Goljan, J. Lukàš, Determining image origin and integrity using sensor noise. IEEE Trans. Inf. Forensic Secur.3(4), 74–90 (2008).

3. K. Rosenfeld, H. T. Sencar, N. Memon, in Proc. SPIE Media Forensics and Security, vol. 7254. A study of the robustness of PRNU-based camera identification (International Society for Optics and Photonics, 2009), pp. 1–7.

4. S. Bayram, H. T. Sencar, N. Memon, Efficient sensor fingerprint matching through fingerprint binarization. IEEE Trans. Inf. Forensic Secur.7(4), 1404–1413 (2012).

5. D. Valsesia, G. Coluccia, T. Bianchi, E. Magli, Large-scale image retrieval based on compressed camera identification. IEEE Trans. Multimed.17(9), 1439–1449 (2015).

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