Title :
Key independent watermark detection
Author :
Van Schyndel, R.G. ; Tirkel, A.Z. ; Svalbe, I.D.
Author_Institution :
Dept. of Phys., Monash Univ., Clayton, Vic., Australia
Abstract :
Many types of pseudo-random signals have been used to embed signatures as watermarks, with spread spectrum signal techniques used to recover the signature from the encrypted data. Legendre sequences are a suitable candidate for signature encryption as they exhibit `perfect´ two level auto-correlation. Additionally Legendre sequences have the unusual and interesting property of invariance under Fourier transformation; the spatial and frequency representation of each sequence is identical up to a phase factor. The presence of a Legendre-based watermark, embedded in the pixel or transform domain, can be detected by cross-correlating a sequence-encrypted image with its Fourier transform. This property enables verification of the presence of a watermark (of specified length), without requiring prior knowledge of the sequence type or key used for the encryption
Keywords :
Fourier transforms; copyright; cryptography; image coding; multimedia systems; Fourier transform; Legendre sequences; Legendre-based watermark; encrypted data; frequency representation; key independent watermark detection; multimedia; pixel; pseudo-random signals; sequence-encrypted image; signature encryption; spatial representation; spread spectrum signal techniques; two level auto-correlation; Autocorrelation; Cryptography; Data security; Discrete Fourier transforms; Fourier transforms; Frequency; Physics; Pixel; Spread spectrum communication; Watermarking;
Conference_Titel :
Multimedia Computing and Systems, 1999. IEEE International Conference on
Conference_Location :
Florence
Print_ISBN :
0-7695-0253-9
DOI :
10.1109/MMCS.1999.779265
