Provable Chaotically Authenticated Encrypted Biomedical Image Using OFDM Transmission

Fusion: Practice and Applications Pub Date : 1900-01-01 DOI:10.54216/fpa.090201

B. M. El-den

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Abstract

In this research, a unique multiband random chaotic key generator based provable authenticated encrypted technique for biomedical picture for the healthcare biomedical system, which can be used in 5G communication system is presented. In addition, the encryption method employed in this research is based on Multiband Random Chaotic Key Generator, and the proposed provable authenticated methodology is based on symmetric authenticated encryption data (MBRCKG). In the proposed proven Orthogonal Frequency Division Multiplexing (OFDM) communication system, the Authenticated Chaotic Encrypted Biomedical Image (ACE-BI) is utilized. This study uses discrete wavelet transformation (DWT) and discrete cosine transformation (DCT) to mask patient data and hospital watermarks in biological images. With various statistical and OFDM settings, channel analysis and statistical analysis have been examined for their effects on the collected hospital logo and patient data. The simulation studies demonstrate how resistant to communication signal processing the proposed ACE-BI method is. Additionally, the proposed algorithm is able to reduce encryption time to one quarter because the partial encryption based in one level DWT scheme.

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利用OFDM传输可证明的混沌认证加密生物医学图像

本研究提出了一种独特的基于多频带随机混沌密钥发生器的医疗生物医学图像可验证加密技术，该技术可用于5G通信系统。此外，本文采用的加密方法是基于多频带随机混沌密钥生成器，提出的可证明认证方法是基于对称认证加密数据(MBRCKG)。在经过验证的正交频分复用(OFDM)通信系统中，采用了认证混沌加密生物医学图像(ACE-BI)。本研究采用离散小波变换(DWT)和离散余弦变换(DCT)对生物图像中的患者数据和医院水印进行掩码。通过各种统计和OFDM设置，通道分析和统计分析对收集的医院标识和患者数据的影响进行了检查。仿真研究证明了ACE-BI方法对通信信号处理的抵抗能力。此外，由于部分加密基于一层DWT方案，该算法能够将加密时间缩短到四分之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Fusion: Practice and Applications

CiteScore

2.00

自引率

0.00%

发文量