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Ales Zita. Publication Digital Image Forgery Detection Based on Lens and Sensor Aberration Authors : Ido Yerushalmy, Hagit Hel-Or Dept. of Computer Science,

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Presentation on theme: "Ales Zita. Publication Digital Image Forgery Detection Based on Lens and Sensor Aberration Authors : Ido Yerushalmy, Hagit Hel-Or Dept. of Computer Science,"— Presentation transcript:

1 Ales Zita

2 Publication Digital Image Forgery Detection Based on Lens and Sensor Aberration Authors : Ido Yerushalmy, Hagit Hel-Or Dept. of Computer Science, University of Haifa, Israel Published in International Journal of Computer Vision DOI 10.1007/s11263-010-0403-1 Springer Science + Business Media LLC 2010

3 Introduction Digital image age Methods of forgery detection Intelligent Reasoning Additional Data Embedding Statistical Detection Without Additional Data

4 Intelligent reasoning

5 Methods Intelligent reasoning Semantics, geometry, scene lighting, etc.. Additional data embedding Watermarking Statistics based methods Training sets, classification techniques (SVM) Detection Without Additional Data Brute force, JPEG based, CFA based, Chromatic Aberration based

6 Detection w/o additional data Brute force – detecting duplicates in the feature space (Fridrich at al. 2003) Colour interpolation algorithm scheme discrepancies (Wolfgang and Delp 1996) Repetitive spatial pattern in JPEG compressed images (Wang and Farid 2006) Lens Chromatic Aberration based (Johnson and Farid 2006)

7 Lens Chromatic Aberrations Variety of aberration of optical systems Chromatic Aberration – Snell’s law of refraction Spatial Blur Geometric Distortion Lens Chromatic Aberrations Axial Chromatic Aberration Lateral Chromatic Aberration (LCA) Achromatic Doublet Purple Fringing Aberration (PFA)

8 Johnson and Farid 2006 LCA based Expansion and contraction of blue & red vs. green channel Brute force algorithm – centre and magnitude Non overlapping image regions evaluation Mark the discrepancies

9 PFA Blue-purple halo on the distal and proximal side of bright and dark object edges respectively. Sometimes tiny yellow tint on the opposite side. More acute with high contrast change Strength increases with is distance from the image centre

10 PFA sources Causes: Adjacent photodiode cell electron overflow (Ochi et al. 1997) Sensor infrared filter coating not stopping all the IR (Rudolf 1992) Sensor cell microlenses cause ray refraction to neighboring cells (Daly 2001)

11 PFA Examples

12 Algorithm Identify PFA edges Determine PFA direction for each event Assign reliability measure to each event Determine the image center Reevaluate directions to detect the inconsistent regions

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17 References Daly, D. (2001). Microlenses arrays. Boca Raton CRC press. Fridrich, J., Soukal, D., & Lukas, J. (2003). Detection of copy-move forgery in digital images. In Proc. Digital forensic research workshop, Cleveland, OH. Johnson, M. K. & Farid, H. (2006) Exposing digital forgeries through chromatic aberration. On Proc. ACM multimedia and security workshop, Geneva, Switzerland. Ochi, S., Lizuka, T., Sato, Y., Hamasaki, M., Abe, H., Narabu, T., Kato, K., & Kagawa, Y. (1997). Charge-coupled device technology. Boca Raton : CRC press. Rudolf, K. (1992). Optics in photography. Bellingham: SIPE. Yerushalmy&Hel-Or (2010) Digital Image Forgery Detection Based on Lens and Sensor Aberration, International Journal of Computer Vision Wang, W., & Farid, H. (2006). Exposing digital forgeries in video by detecting double MPEG compression. In Proc. ACM multimedia and security workshop, Geneva, Switzerland. Wolfgang, R. B., & Delp, E. J., (1996). A watermark for digital images. In Proc. IEEE intl conference on image processing. Wikipedia.org (http://www.wikipedia.org)

18 Thank you Q ?

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