Improved PVO-based reversible data hiding
Source: Digital Signal Processing, 2014Authors: Fei Peng, Xiaolong Li,ngReporter: Min-Hao Wu
Outline
• Related Work• Proposed Scheme• Experimental Results• Conclusions
Related work
• High-fidelity reversible data hiding scheme based on pixel-value-ordering and prediction-error expansion• Signal Processing• Xiaolong Li, Jian Li, Bin Li, Bin Yang
Data embedding procedure
• Step1: Divide the host image into k non-overlapped blocks {X1, ... ,Xk}• Step2: The overflow/underflow location map LM is defined in this
step. (Location map construction)
• embed the data bits into the host image• if LM(i)= 1, the overflow/underflow would occur and we do nothing• if LM(i)= 0, and Xn-1 – X2 >= T, we do nothing• if LM(i)= 0, and Xn-1 – X2 < T, will be shifted or expanded to carry data
D0,0 = S1,0 – S1,1
• Take 2 × 2 sized blocks as an example• the histogram of PEmax for the Lena image that capacity about
15,000 bits by PVO-based predictor method• the bin with PEmax = 1 is usually the histogram peak
Experimental results
• the performance on PSNR is better for a larger block size.• larger sized blocks provide lower maximum EC.
Experimental results
Experimental results
Conclusion
• based on ordering the pixel values in image block, an effective predictor is proposed for PEE.• the flat blocks are priory selected to embed data, which is helpful to
improve the embedding performance.• This method can achieve a higher PSNR under the same EC.