用于医疗物联网数据共享和声誉管理的联邦学习驱动双区块链

IF 3 4区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Expert Systems Pub Date : 2024-09-06 DOI:10.1111/exsy.13714

Chenquan Gan, Xinghai Xiao, Qingyi Zhu, Deepak Kumar Jain, Akanksha Saini, Amir Hussain

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引用次数: 0

摘要

在医疗物联网（IoMT）中，联合学习（FL）容易受到单点故障、低质量节点和中毒攻击的影响，因此需要创新的解决方案。本文介绍了一种 FL 驱动的双区块链方法，以应对这些挑战并改善数据共享和声誉管理。我们的方法包括两个区块链：模型质量区块链（MQchain）和声誉激励区块链（RIchain）。MQchain 利用增强型质量证明（PoQ）共识算法来排除低质量节点参与聚合，通过利用节点声誉和质量阈值来有效缓解单点故障和中毒攻击。与此同时，RIchain 还结合了声誉评估、激励机制和索引查询机制，可以快速、全面地评估节点，从而为 MQchain 识别出高声誉节点。安全分析证实了所提方法的理论合理性。使用真实医疗数据集（特别是 MedMNIST）进行的实验评估表明，与三种替代方法相比，我们的方法具有显著的抗攻击能力。

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Federated learning‐driven dual blockchain for data sharing and reputation management in Internet of medical things

In the Internet of Medical Things (IoMT), the vulnerability of federated learning (FL) to single points of failure, low‐quality nodes, and poisoning attacks necessitates innovative solutions. This article introduces a FL‐driven dual‐blockchain approach to address these challenges and improve data sharing and reputation management. Our approach comprises two blockchains: the Model Quality Blockchain (MQchain) and the Reputation Incentive Blockchain (RIchain). MQchain utilizes an enhanced Proof of Quality (PoQ) consensus algorithm to exclude low‐quality nodes from participating in aggregation, effectively mitigating single points of failure and poisoning attacks by leveraging node reputation and quality thresholds. In parallel, RIchain incorporates a reputation evaluation, incentive mechanism, and index query mechanism, allowing for rapid and comprehensive node evaluation, thus identifying high‐reputation nodes for MQchain. Security analysis confirms the theoretical soundness of the proposed method. Experimental evaluation using real medical datasets, specifically MedMNIST, demonstrates the remarkable resilience of our approach against attacks compared to three alternative methods.

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来源期刊

Expert Systems 工程技术-计算机：理论方法

CiteScore

7.40

自引率

6.10%

发文量

266

审稿时长

24 months

期刊介绍： Expert Systems: The Journal of Knowledge Engineering publishes papers dealing with all aspects of knowledge engineering, including individual methods and techniques in knowledge acquisition and representation, and their application in the construction of systems – including expert systems – based thereon. Detailed scientific evaluation is an essential part of any paper. As well as traditional application areas, such as Software and Requirements Engineering, Human-Computer Interaction, and Artificial Intelligence, we are aiming at the new and growing markets for these technologies, such as Business, Economy, Market Research, and Medical and Health Care. The shift towards this new focus will be marked by a series of special issues covering hot and emergent topics.