Add to ORKGPrediction-error expansion (PEE) is an efficient technique for reversible data hiding (RDH). Instead of expanding the highest histogram bins in conventional PEE, in this paper, to better utilize the image redundancy, we propose a new PEE-based RDH scheme with an advisable expansion strategy utilizing referential prediction-errors. For each pixel, we first calculate its prediction-error and use its neighbor prediction-error as a reference. The correlation of the prediction-error and its reference is exploited to adaptively select bins for expansion embedding. In addition, to further enhance the reversible embedding performance, we apply the pixel selection technique in our scheme such that the pixels located in smooth image areas are priorly...
This paper presents a high-fidelity reversible data hiding scheme for digital images based on a new ...
Abstract. In this paper, we present an additive prediction error expan-sion (PEE) based reversible d...
In this paper, a new reversible data hiding (RDH) algorithm that is based on the concept of shifting...
Prediction-error expansion (PEE) is an efficient technique for reversible data hiding (RDH). Instead...
Prediction-error expansion (PEE) is the most successful reversible data hiding (RDH) technique, and ...
Pairwise prediction-error expansion (pairwise PEE) is an improvement of the conventional PEE and it ...
Abstract — In prediction-error expansion (PEE) based reversible data hiding, better exploiting image...
Prediction-error expansion (PEE) is an important technique of reversible watermarking which can embe...
In this paper, a high capacity reversible image data hiding scheme is proposed based on a generaliza...
This paper presents a new reversible data hiding scheme based on a popular technique, namely predict...
Prediction-error expansion (PEE)-based reversible data hiding schemes consist of two steps. First, a...
Recently, more and more attention is paid to reversible data hiding (RDH) in encrypted images becaus...
Pixel value ordering and prediction error expansion (PVO+PEE) is a very successful reversible data h...
Prediction-error expansion (PEE) develops Tian's difference expansion technique by performing r...
Abstract- Reversible watermarking enables embedding of valuable information in a host signal with no...
This paper presents a high-fidelity reversible data hiding scheme for digital images based on a new ...
Abstract. In this paper, we present an additive prediction error expan-sion (PEE) based reversible d...
In this paper, a new reversible data hiding (RDH) algorithm that is based on the concept of shifting...
Prediction-error expansion (PEE) is an efficient technique for reversible data hiding (RDH). Instead...
Prediction-error expansion (PEE) is the most successful reversible data hiding (RDH) technique, and ...
Pairwise prediction-error expansion (pairwise PEE) is an improvement of the conventional PEE and it ...
Abstract — In prediction-error expansion (PEE) based reversible data hiding, better exploiting image...
Prediction-error expansion (PEE) is an important technique of reversible watermarking which can embe...
In this paper, a high capacity reversible image data hiding scheme is proposed based on a generaliza...
This paper presents a new reversible data hiding scheme based on a popular technique, namely predict...
Prediction-error expansion (PEE)-based reversible data hiding schemes consist of two steps. First, a...
Recently, more and more attention is paid to reversible data hiding (RDH) in encrypted images becaus...
Pixel value ordering and prediction error expansion (PVO+PEE) is a very successful reversible data h...
Prediction-error expansion (PEE) develops Tian's difference expansion technique by performing r...
Abstract- Reversible watermarking enables embedding of valuable information in a host signal with no...
This paper presents a high-fidelity reversible data hiding scheme for digital images based on a new ...
Abstract. In this paper, we present an additive prediction error expan-sion (PEE) based reversible d...
In this paper, a new reversible data hiding (RDH) algorithm that is based on the concept of shifting...