联合学习引导的入侵检测和神经密钥交换,用于保护医疗物联网上的患者数据

IF 3.1 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Chongzhou Zhong, Arindam Sarkar, Sarbajit Manna, Mohammad Zubair Khan, Abdulfattah Noorwali, Ashish Das, Koyel Chakraborty
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引用次数: 0

摘要

为了提高医疗保健领域医疗物联网(IoMT)的安全性,本文在区块链框架内提供了一个以联合学习(FL)为指导的入侵检测系统(IDS)和一个基于人工神经网络(ANN)的密钥交换机制。IDS 对于发现网络异常并采取预防措施以确保 IoMT 系统的安全可靠运行至关重要。所建议的方法将 FL-IDS 与基于区块链的 ANN 密钥交换机制相结合,具有以下几个重要优势:(1) 基于 FL 的 IDS 创建了一个共享账本,该账本汇总了附近的权重,并传输经过平均处理的历史权重,从而降低了计算难度,消除了中毒攻击,并提高了整个共享数据库的数据可见性和完整性。(2) 该系统使用基于边缘的检测技术,在出现安全漏洞时保护云,从而以更少的计算和处理资源使用量更快地识别威胁。FL 在使用较少数据样本的情况下也能发挥功效,这也是其优势之一。(3) ANN 的双向对齐确保了强大的安全框架,并促进了区块链上 IoMT 网络内部密钥的生成。(4) 互学方法可同步 ANN,使 IoMT 设备更容易分发同步密钥。(5) 使用 BoT-IoT 数据集对 XGBoost 和 ANN 模型进行了测试,以衡量所建议方法的成功程度。研究结果表明,与本研究中的其他方法相比,ANN 在处理 IoMT 中的异构数据(如医疗行业的 ICU(重症监护室)数据)时表现出更高的性能和可靠性。总体而言,这种方法提高了安全措施和性能,使其成为保护 IoMT 系统(尤其是在 ICU 等要求苛刻的医疗环境中)的一个有吸引力的选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Federated learning-guided intrusion detection and neural key exchange for safeguarding patient data on the internet of medical things

Federated learning-guided intrusion detection and neural key exchange for safeguarding patient data on the internet of medical things

To improve the security of the Internet of Medical Things (IoMT) in healthcare, this paper offers a Federated Learning (FL)-guided Intrusion Detection System (IDS) and an Artificial Neural Network (ANN)-based key exchange mechanism inside a blockchain framework. The IDS are essential for spotting network anomalies and taking preventative action to guarantee the secure and dependable functioning of IoMT systems. The suggested method integrates FL-IDS with a blockchain-based ANN-based key exchange mechanism, providing several important benefits: (1) FL-based IDS creates a shared ledger that aggregates nearby weights and transmits historical weights that have been averaged, lowering computing effort, eliminating poisoning attacks, and improving data visibility and integrity throughout the shared database. (2) The system uses edge-based detection techniques to protect the cloud in the case of a security breach, enabling quicker threat recognition with less computational and processing resource usage. FL’s effectiveness with fewer data samples plays a part in this benefit. (3) The bidirectional alignment of ANNs ensures a strong security framework and facilitates the production of keys inside the IoMT network on the blockchain. (4) Mutual learning approaches synchronize ANNs, making it easier for IoMT devices to distribute synchronized keys. (5) XGBoost and ANN models were put to the test using BoT-IoT datasets to gauge how successful the suggested method is. The findings show that ANN demonstrates greater performance and dependability when dealing with heterogeneous data available in IoMT, such as ICU (Intensive Care Unit) data in the medical profession, compared to alternative approaches studied in this study. Overall, this method demonstrates increased security measures and performance, making it an appealing option for protecting IoMT systems, especially in demanding medical settings like ICUs.

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来源期刊
International Journal of Machine Learning and Cybernetics
International Journal of Machine Learning and Cybernetics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
7.90
自引率
10.70%
发文量
225
期刊介绍: Cybernetics is concerned with describing complex interactions and interrelationships between systems which are omnipresent in our daily life. Machine Learning discovers fundamental functional relationships between variables and ensembles of variables in systems. The merging of the disciplines of Machine Learning and Cybernetics is aimed at the discovery of various forms of interaction between systems through diverse mechanisms of learning from data. The International Journal of Machine Learning and Cybernetics (IJMLC) focuses on the key research problems emerging at the junction of machine learning and cybernetics and serves as a broad forum for rapid dissemination of the latest advancements in the area. The emphasis of IJMLC is on the hybrid development of machine learning and cybernetics schemes inspired by different contributing disciplines such as engineering, mathematics, cognitive sciences, and applications. New ideas, design alternatives, implementations and case studies pertaining to all the aspects of machine learning and cybernetics fall within the scope of the IJMLC. Key research areas to be covered by the journal include: Machine Learning for modeling interactions between systems Pattern Recognition technology to support discovery of system-environment interaction Control of system-environment interactions Biochemical interaction in biological and biologically-inspired systems Learning for improvement of communication schemes between systems
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