在资源有限系统中分类IPv6网络流量的新型机器学习(ML)算法

IF 0.3 Q4 COMPUTER SCIENCE, THEORY & METHODS

Computer Science-AGH Pub Date : 2022-09-16 DOI:10.53070/bbd.1172706

Yıldıran Yılmaz, Selim Buyrukoğlu, M. Alım

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引用次数: 0

摘要

在异构物联网网络(包括资源受限设备)中提供基于机器学习(ML)的安全性是一项挑战，因为传统的ML算法需要大量的计算。因此，本文采用测试精度、精密度、F1分数、召回率等性能指标对轻量级ProtoNN、CMSIS-NN和Bonsai树ML算法进行评估，测试它们在资源稀缺的嵌入式设备上生成的IPv6网络数据集上的分类能力。与ProtoNN和CMSIS-NN算法相比，Bonsai树算法在所有指标上都提供了最好的性能结果(准确率为98.8,F1分数为98.9%，精度为99.2%，召回率为98.8%)。

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Novel Machine Learning (ML) Algorithms to Classify IPv6 Network Traffic in Resource-Limited Systems

Providing machine learning (ML) based security in heterogeneous IoT networks including resource-constrained devices is a challenge because of the fact that conventional ML algorithms require heavy computations. Therefore, in this paper, lightweight ProtoNN, CMSIS-NN, and Bonsai tree ML algorithms were evaluated by using performance metrics such as testing accuracy, precision, F1 score and recall to test their classification ability on the IPv6 network dataset generated on resource-scarce embedded devices. The Bonsai tree algorithm provided the best performance results in all metrics (98.8 in accuracy, 98.9% in F1 score, 99.2% in precision, and 98.8% in recall) compared to the ProtoNN, and CMSIS-NN algorithms.

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来源期刊

Computer Science-AGH COMPUTER SCIENCE, THEORY & METHODS-

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

20 weeks