GAHBT: Genetic-Based Hashing Algorithm for Managing and Validating Health Data Integrity in Blockchain Technology.

Fozia Hanif, Urooj Waheed, Rehan Shams, Aisha Shareef
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Abstract

A method for managing, securing, and validating health data distribution records using a genetic-based hashing algorithm in a decentralized environment is presented in this research report. The rationale for choosing blockchain is to secure the transaction of health data and protect these data from manipulated fraudulent movement and corruption by a contributor to the chain, or any individual. Our approach uses technology that provides an efficient surveillance measure, including transparency of records, immunity from fraud, and protection from tampering, as well as sustaining the order of data. For medical research, the results here provide a genetic-based hashing algorithm for data security, which has lower computational complexity, low space coverage, higher security and integrity, and a high avalanche effect. The simulation will show the validity, immunity, and integrity of the data record. The technique modified in this secure decentralized network is a cryptographic hashing algorithm for 512 bits. In this study, a genetic algorithm (GA) is used to generate a key that must be used in the encryption and decryption of medical data. A GA is a metaheuristic approach inspired by the laws of genetics; and it is generally used to generate high-quality solutions for complex problems. Applications of GAs are possible in medical fields, such as radiology, oncology, cardiology, endocrinology, surgery, oncology, and radiotherapy in healthcare management.

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GAHBT:基于遗传的哈希算法,用于管理和验证区块链技术中的健康数据完整性。
本研究报告提出了一种在分散环境中使用基于遗传的散列算法管理、保护和验证健康数据分发记录的方法。选择区块链的基本原理是保护健康数据的交易,并保护这些数据免受链贡献者或任何个人操纵的欺诈性移动和腐败。我们的方法使用的技术提供了一种有效的监督措施,包括记录的透明度,免受欺诈,防止篡改,以及维持数据的秩序。在医学研究方面,本文的研究结果为数据安全提供了一种基于遗传的哈希算法,该算法具有较低的计算复杂度、较低的空间覆盖率、较高的安全性和完整性以及较高的雪崩效应。仿真结果显示了数据记录的有效性、抗扰性和完整性。在这个安全的去中心化网络中修改的技术是512位的加密散列算法。在本研究中,使用遗传算法(GA)来生成必须用于医疗数据加密和解密的密钥。遗传算法是一种受遗传学定律启发的元启发式方法;它通常用于生成复杂问题的高质量解决方案。GAs在医学领域的应用是可能的,例如放射学、肿瘤学、心脏病学、内分泌学、外科、肿瘤学和医疗保健管理中的放射治疗。
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