Tolerance Evaluation for Defocused Images to Optical Watermarking Technique

In this paper, we describe a new aspect to evaluating the robustness of the optical watermarking technique, which is a unique technology that can add watermarked information to object image data taken with digital cameras without any specific extra hardware architecture. However, since this technology uses light with embedded watermarked information, which is irradiated onto object images, the condition of taking a picture with digital cameras may affect the accuracy with which embedded watermarked data can be detected. Images taken with digital cameras are usually defocused, which occurs under non-optimal conditions. We evaluated the defocusing in images against the accuracy with which optical watermarking could be detected. Defocusing in images can be expressed with convolution with a line-spread function (LSF). We used the value of full-width at half-maximum (FWHM) of a Gaussian function as the degree to which images were defocused, which could approximate LSF. We carried out experiments where the accuracies of detection were evaluated as we varied the degree to which images were defocused. The results from the experiments revealed that optical watermarking technology was extremely robust against defocusing in images.

[1]  Kazutake Uehira,et al.  Practical Evaluation of Illumination Watermarking Technique Using Orthogonal Transforms , 2010, Journal of Display Technology.

[2]  Shui-hua Huang,et al.  An optical watermarking solution for color personal identification pictures , 2009, International Conference on Optical Instruments and Technology.

[3]  Azriel Rosenfeld,et al.  Digital Picture Processing , 1976 .

[4]  Masahiro Suzuki,et al.  Digital watermarking technique using brightness-modulated light , 2008, 2008 IEEE International Conference on Multimedia and Expo.

[5]  Frank Hartung,et al.  Multimedia watermarking techniques , 1999, Proc. IEEE.

[6]  Ingemar J. Cox,et al.  Secure spread spectrum watermarking for multimedia , 1997, IEEE Trans. Image Process..

[7]  Ton Kalker,et al.  A watermarking scheme for digital cinema , 2001, Proceedings 2001 International Conference on Image Processing (Cat. No.01CH37205).

[8]  Darko Kirovski,et al.  New Trends and Challenges in Digital Watermarking Technology: Applications for Printed Materials , 2006 .

[9]  Kazuhisa Yanaka,et al.  Optical watermarking technique robust to geometrical distortion in image , 2010, The 10th IEEE International Symposium on Signal Processing and Information Technology.

[10]  Kazuhisa Yanaka,et al.  Robust optical watermarking technique by optimizing the size of pixel blocks of orthogonal transform , 2011, 2011 IEEE Industry Applications Society Annual Meeting.

[11]  Takayuki Yamada,et al.  Preventing re-recording based on difference between sensory perceptions of humans and devices , 2010, 2010 IEEE International Conference on Image Processing.

[12]  Kineo Matsui,et al.  Robustness Investigation of DCT Digital Watermark for Printing and Scanning , 2002 .