Abstract
Currently, the research for reversible watermarking focuses on the decreasing of image distortion. Aiming at this issue, this paper presents an improvement method to lower the embedding distortion based on the prediction-error expansion (PE) technique. Firstly, the extreme learning machine (ELM) with good generalization ability is utilized to enhance the prediction accuracy for image pixel value during the watermarking embedding, and the lower prediction error results in the reduction of image distortion. Moreover, an optimization operation for strengthening the performance of ELM is taken to further lessen the embedding distortion. With two popular predictors, that is, median edge detector (MED) predictor and gradient-adjusted predictor (GAP), the experimental results for the classical images and Kodak image set indicate that the proposed scheme achieves improvement for the lowering of image distortion compared with the classical PE scheme proposed by Thodi et al. and outperforms the improvement method presented by Coltuc and other existing approaches.
Highlights
Digital watermarking has been extensively applied to the fields of digital library, fingerprinting, and secret communication
According to the scanning sequence from top to bottom and left to right, the preassigned neighbor pixels of all image pixels xs are collected as the input part of training set of optimized ELM (OELM), and the corresponding image pixels xs are considered as the output part of training set of OELM
The location map for the overflow/underflow pixels is compressed by arithmetic encoding (AE)
Summary
Digital watermarking has been extensively applied to the fields of digital library, fingerprinting, and secret communication. The reversible watermarking schemes mainly focus on the spatial domain and are divided into three categories including difference expansion-based method [4,5,6,7], histogram shifting-based method [8,9,10,11,12], and prediction error-based method [13,14,15,16,17]. Chen and Tsai [6] presented an adaptive block sized reversible image watermarking scheme with difference expansion, which had higher capacity than conventional fixed block sized method. Gu and Gao [7] used chaotic logistic map to randomly select the position for watermarking embedding and to search the threshold space of reversibility. The proposed method achieved balance between the reversibility and the robustness with the help of chaotic system
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