3D Image Encryption Using Integral Imaging Scheme and MLCA Technology

Dong Hwan Kim; Yong Ri Piao; Sung Jin Cho; Seok Tae Kim

doi:10.4028/www.scientific.net/AMM.284-287.2955

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Use of the Fuzzy-Based Taguchi Method for the Optimization Design of an Ultrathin Centrifugal Fan
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3D Angle Searching System with PSO for Face Recognition
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3D Image Encryption Using Integral Imaging Scheme and MLCA Technology
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A Coded Digital Watermarking Recognition Using Neural Network Method
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A Forward Moving Method for Continuous Nearest Neighbor Queries
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A Memetic Algorithm for Mixed-Integer Optimization Problems
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A Multi-Criteria Image Quality Evaluation Scheme
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 284-2873D Image Encryption Using Integral Imaging Scheme...

3D Image Encryption Using Integral Imaging Scheme and MLCA Technology

Abstract:

A new 3D image encryption method using integral imaging technology and maximum length cellular automata (MLCA) is proposed in this paper. First, an elemental image (EI) is generated by the integral imaging pickup process. The Wolfram rule is then selected and the state transition matrix, T, is created by MLCA. A random number matrix (RNM) is generated according to the MLCA rule. The generated EI and RNM are compared and pixel values are transitioned. Finally, a basis image is generated by another MLCA rule. The basis image is applied by performing a logic bit exclusive-OR (XOR) operation on the final encrypted image. This method changes the basic image information. Using pixel values to visualize image data gives better encryption results than the previous method. The robustness of the encryption method for lost data, including added noise or cropping attacks, was analyzed and the results of encryption method safety test experiments are presented using histograms.