利用区块链和机器学习建立轻量级安全框架

IF 6.9 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Blockchain-Research and Applications Pub Date : 2024-03-01 DOI:10.1016/j.bcra.2023.100174
Shereen Ismail , Muhammad Nouman , Diana W. Dawoud , Hassan Reza
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引用次数: 0

摘要

网络攻击对物联网(IoT)传感器网络的安全构成了重大挑战,因此有必要针对其独特的特点和局限性制定强有力的应对措施。为缓解这些攻击,人们提出了各种预防和检测技术。在本文中,我们提出了一个使用区块链和机器学习(ML)来保护物联网传感器网络的集成安全框架。该框架由两个模块组成:区块链预防模块和 ML 检测模块。区块链预防模块有两个轻量级机制:身份管理和信任管理。身份管理采用轻量级智能合约(Smart Contract,SC)来管理节点注册和身份验证,确保禁止未经授权的实体参与任何任务;而信任管理采用轻量级 SC,负责在整个网络生命周期内维护传感器节点之间的信任和信誉,并跟踪节点的历史行为。共识和事务验证通过可验证拜占庭容错(VBFT)机制实现,以确保网络的可靠性和完整性。ML 检测模块利用光梯度提升机(LightGBM)算法对恶意节点进行分类,并在区块链网络必须做出决策以减轻其影响时通知区块链网络。我们使用 WSN-DS 数据集研究了几种现成的 ML 算法的性能,包括逻辑回归(Logistic Regression)、直觉贝叶斯补全(Complement Naive Bayes)、最近中心点(Nearest Centroid)和堆叠(Stacking)。在使用准确度、精确度、召回率、F1 分数、处理时间、训练时间、预测时间、计算复杂度和马修斯相关系数 (MCC) 评估指标进行详细比较分析后,我们选择了 LightGBM。
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Towards a lightweight security framework using blockchain and machine learning

Cyber-attacks pose a significant challenge to the security of Internet of Things (IoT) sensor networks, necessitating the development of robust countermeasures tailored to their unique characteristics and limitations. Various prevention and detection techniques have been proposed to mitigate these attacks. In this paper, we propose an integrated security framework using blockchain and Machine Learning (ML) to protect IoT sensor networks. The framework consists of two modules: a blockchain prevention module and an ML detection module. The blockchain prevention module has two lightweight mechanisms: identity management and trust management. Identity management employs a lightweight Smart Contract (SC) to manage node registration and authentication, ensuring that unauthorized entities are prohibited from engaging in any tasks, while trust management uses a lightweight SC that is responsible for maintaining trust and credibility between sensor nodes throughout the network's lifetime and tracking historical node behaviors. Consensus and transaction validation are achieved through a Verifiable Byzantine Fault Tolerance (VBFT) mechanism to ensure network reliability and integrity. The ML detection module utilizes the Light Gradient Boosting Machine (LightGBM) algorithm to classify malicious nodes and notify the blockchain network if it must make decisions to mitigate their impacts. We investigate the performance of several off-the-shelf ML algorithms, including Logistic Regression, Complement Naive Bayes, Nearest Centroid, and Stacking, using the WSN-DS dataset. LightGBM is selected following a detailed comparative analysis conducted using accuracy, precision, recall, F1-score, processing time, training time, prediction time, computational complexity, and Matthews Correlation Coefficient (MCC) evaluation metrics.

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来源期刊
CiteScore
11.30
自引率
3.60%
发文量
0
期刊介绍: Blockchain: Research and Applications is an international, peer reviewed journal for researchers, engineers, and practitioners to present the latest advances and innovations in blockchain research. The journal publishes theoretical and applied papers in established and emerging areas of blockchain research to shape the future of blockchain technology.
期刊最新文献
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