基于区块链技术的大数据环境下的数据结构与隐私保护分析

Yu Wang
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摘要

在当今的数字世界中,信息技术(IT)的飞速发展使得保护和管理数据存储和检索成为了当务之急。要建立强大的访问控制机制,并在数据处理过程中提供有效的授权和认证,就必须挑战与分散和分散数据有关的困难。在当代信息技术背景下,确保数据存储和检索安全已成为当务之急。分布式和分散式数据带来的挑战要求开发强大的访问控制机制,要求在事务处理中注重适当的授权和认证。本研究通过全面调整数据结构,有效满足不断发展的安全访问和存储控制需求,弥补了现有差距。它使用增强梅克尔树(EMT)作为一种新型数据结构。本文首先修改了区块链技术中使用的传统梅克尔树(MT)结构,以适应电子医疗系统(e-HS)的要求。EMT 增强了数据访问和存储的安全性,并显著改善了数据完整性管理。其恒定的三度 MT 具有多个叶子、分支和单个根节点,能够更新数据认证、验证和确认程序。将所提出的方法应用于 e-HS 场景,所提出的 EMT 优于现有的最先进技术,100 笔交易的最小验证时间为 14.26 米。因此,这项研究针对电子医疗系统所面临的独特挑战,提出了一种创新、高效的解决方案,为数据安全方面的讨论做出了贡献。
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Data structure and privacy protection analysis in big data environment based on blockchain technology

In today's digital world, the rapid advancement of Information Technology (IT) has made it crucial to prioritize the protection and management of data storage and retrieval. It is vital to challenge the difficulties related to dispersed and decentralized data to build strong mechanisms for access control and provide effective authorization and authentication in data processing. In the contemporary context of IT, the imperative to secure data storage and retrieval has become distinctly observed. The challenges posed by distributed and decentralized data demand the development of robust mechanisms for access control, demanding a focus on proper authorization and authentication in transaction processing. This research addresses the existing gap by comprehensively adapting data structures effectively to the evolving needs of secure access and storage control. It uses the Enhanced Merkle Tree (EMT) as a novel data structure. This article initially modifies the conventional Merkle Tree (MT) structure used in Blockchain technology to suit e-healthcare Systems (e-HS) requirements. The EMT enhances data security in access and storage and significantly improves data integrity management. Its constant three-degree MT with multiple leaves, branches, and a single root node enables updated data authentication, verification, and validation procedures. The proposed method is applied to the e-HS scenario, and the proposed EMT outperforms existing state-of-the-art techniques, achieving a minimal verification time of 14.26 m for 100 transactions. This research, therefore, contributes to the discourse on data security by presenting an innovative and efficient solution tailored to the unique challenges of e-health systems.

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