ANALYSIS AND DEVELOPMENT OF REVERSIBLE DATA HIDING SCHEME BASED ON PIXEL VALUE ORDERING

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dc.contributor.author ABDUL HASIB, SULTAN
dc.date.accessioned 2022-06-12T05:07:47Z
dc.date.available 2022-06-12T05:07:47Z
dc.date.issued 2019-12
dc.identifier.uri http://dspace.mist.ac.bd:8080/xmlui/handle/123456789/712
dc.description.abstract Reversible Data hiding (RDH) is an evolving forensic and covert-communication technology that embeds data into a cover image (or other media like video or audio) so that the embedded data later can be extracted for the copyright protection, integrity establishment or annotation. Developing such a scheme with better rate-distortion performance is challenging since a higher embedding rate usually causes more distortion in the embedded image. Recently, the pixel-value-ordering (PVO) based RDH schemes have shown better rate-distortion performance so far. However, the existing PVObased RDH schemes have not considered a suitable scanning order in a kernel that can further improve the embedding rate-distortion performance. This thesis, therefore, contributes to the development of a PVO-based RDH scheme with a new PVO-kernel and backward embedding technique. Firstly, a new triangular kernel is proposed that captures the pixels correlated in the horizontal, vertical and diagonal directions simultaneously. The proposed kernel is employed in a prominent PVO-based RDH scheme and is verified for a better (or occasionally similar) rate-distortion performance than the existing schemes that rely on only the columnor row-kernel. Additionally, a new backward embedding technique is introduced to counterbalance the distortion caused in a forward embedding phase. Besides, the computational modeling, and the evaluation, analysis, and validation of the new PVO-based RDH scheme are presented in the thesis. The simulation results has demonstrated a promising performance of the proposed scheme and its improvement over the popular and state-of-the-art PVO-based RDH schemes. Particularly, a significantly better rate-distortion performance is obtained at the higher embedding rate, which means the proposed scheme is more promising to the applications with a high embedding capacity requirement like electronic patient record hiding in medical images. Moreover, the proposed RDH scheme developed using the new kernel and backward-embedding would create a new paradigm of RDH for the future data hiding research. vii en_US
dc.language.iso en en_US
dc.publisher DEPARTMENT OF ELECTRICAL, ELECTRONIC AND COMMUNICATION ENGINEERING en_US
dc.title ANALYSIS AND DEVELOPMENT OF REVERSIBLE DATA HIDING SCHEME BASED ON PIXEL VALUE ORDERING en_US
dc.type Thesis en_US


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