Blockchain With Hierarchical Auto-Associative Polynomial Convolutional Neural Network Fostered Cryptography for Securing Image

IF 2.5 4区 计算机科学 Q3 TELECOMMUNICATIONS Transactions on Emerging Telecommunications Technologies Pub Date : 2024-11-06 DOI:10.1002/ett.70013
V. Deepa Priya, M. Sundaram
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Abstract

Nowadays, the image security is one of the most challenging issues to address the technological age. Security is the primary issue in data management and transmission because of the original data form that is read, abused and destroyed. The cloud companies struggle to secure the file. The cloud security is the major concern in cloud computing context. Numerous researches have been presented so far to protect the cloud environment. But, none of them provides the sufficient security. Therefore, this paper proposes a Blockchain-based technique for Image Security that combines Hierarchical Auto-Associative Polynomial Convolutional Neural Network Fostered Cryptography (BC-SIE-HAPCNN-FODCE). The Flickr30k dataset is used to collect the input images. At that point, cryptographic pixel values of picture are kept on blockchain to defend security of picture information. It uses Delegated Proof of Stake Consensus (DT-DPoS) approach appointed confirmation of stake agreement approach. The performance parameters, like processing time, reaction time, runtime, correlation coefficient analysis, entropy analysis, mean square error, and availability are used to determine the efficacy of the proposed BC-SIE-HAPCNN-FODCE approach. The performance of the proposed technique attains 18.81%, 32.05%, and 22.28% higher correlation coefficient and 25.38%, 20.81%, and 26.04% higher entropy compared with existing methods, such as Multiple Rossler lightweight Logistic sine mapping dependent Federated convolutional method with cyber blockchain in medical image encryption (BC-SIE-FCAL-MRLLSM), color image encryption under Hénon-zigzag map with chaotic restricted Boltzmann machine over Blockchain (BC-SIE-CRBM-HZM) and blockchain-assisted safe picture transmission along detection method on Internet of Medical Things Environment (BC-SIE-ECC-DBN), respectively.

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区块链与分层自动关联多项式卷积神经网络相结合的图像加密技术
如今,图像安全性是技术时代最具挑战性的问题之一。安全是数据管理和传输中的首要问题,因为原始数据形式会被读取、滥用和破坏。云计算公司努力确保文件安全。云安全是云计算背景下的主要问题。迄今为止,已经有许多研究提出要保护云环境。但是,它们都没有提供足够的安全性。因此,本文提出了一种基于区块链的图像安全技术,该技术结合了分层自动关联多项式卷积神经网络加密技术(BC-SIE-HAPCNN-FODCE)。Flickr30k 数据集用于收集输入图像。此时,图片的加密像素值被保存在区块链上,以保护图片信息的安全。区块链使用委托权益共识证明(DT-DPoS)方法指定权益协议确认方法。处理时间、反应时间、运行时间、相关系数分析、熵分析、均方误差和可用性等性能参数用于确定所提议的 BC-SIE-HAPCNN-FODCE 方法的有效性。与现有方法相比,所提技术的相关系数分别提高了 18.81%、32.05% 和 22.28%,熵分别提高了 25.38%、20.81% 和 26.04%。与现有方法相比,如医学图像加密中的多Rossler轻量级Logistic正弦映射依赖联邦卷积法与网络区块链(BC-SIE-FCAL-MRLLSM)、区块链上的混沌受限玻尔兹曼机Hénon-zigzag映射下的彩色图像加密(BC-SIE-CRBM-HZM)和医疗物联网环境下的区块链辅助安全图片传输沿检测方法(BC-SIE-ECC-DBN),熵值分别提高了18.81%、32.05%和22.28%。
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来源期刊
CiteScore
8.90
自引率
13.90%
发文量
249
期刊介绍: ransactions on Emerging Telecommunications Technologies (ETT), formerly known as European Transactions on Telecommunications (ETT), has the following aims: - to attract cutting-edge publications from leading researchers and research groups around the world - to become a highly cited source of timely research findings in emerging fields of telecommunications - to limit revision and publication cycles to a few months and thus significantly increase attractiveness to publish - to become the leading journal for publishing the latest developments in telecommunications
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