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Homomorphic Two Tier Reversible Data Hiding In Encrypted 3D Objects

Bianca Jansen van Rensburg, Pauline Puteaux, William Puech, Jean-Pierre Pedeboy

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Abstract

Today, 3D objects are an increasingly popular form of media. It has become necessary to secure them during their transmission or archiving. In this paper, we propose a two tier reversible data hiding method for 3D objects in the encrypted domain. Based on the homomorphic properties of the Paillier cryptosystem, our proposed method embeds a first tier message in the encrypted domain which can be extracted in either the encrypted domain or the clear domain. Indeed, our method produces a marked 3D object which is visually very similar to the original object. It seeks to be format compliant and to preserve the original size of the data, without the need for an auxiliary file. Moreover, large keys are used, rending our method secure for real life applications.

Topics & Concepts

Computer scienceHomomorphic encryptionEncryptionDomain (mathematical analysis)Information hidingPaillier cryptosystemCryptosystemObject (grammar)Theoretical computer scienceComputer securityHybrid cryptosystemImage (mathematics)Artificial intelligenceMathematicsMathematical analysisAdvanced Steganography and Watermarking TechniquesChaos-based Image/Signal EncryptionComputer Graphics and Visualization Techniques
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