Parallel deep-forest-based abnormal traffic detection for power distribution communication networks

doi:10.3969/j.issn.1000-5641.2023.05.011

Abstract

Abstract:

With the continuous development of network attack methods, it is becoming increasingly difficult to protect the security of power communication networks. Currently, the detection accuracy of abnormal traffic in distribution communication networks is insufficient and the efficiency of abnormal traffic detection is low. To address these issues, a new method for abnormal traffic detection in distribution communication networks is proposed, in which feature extraction and traffic classification are improved. The proposed method utilizes a time-frequency domain feature extraction method, using an adaptive redundancy boosting multiwavelet packet transform to quickly extract frequency-domain features, while time-domain features are extracted using the communication characteristics of the distribution network. To improve traffic classification and detection, a parallel deep forest classification algorithm is proposed based on a distributed computing framework, and the training and classification task scheduling strategies are optimized. The experimental results show that the false alarm rate of the proposed method is only 2.63% and the accuracy rate for the detection of abnormal traffic in distribution networks is 98.29%.

Key words: abnormal traffic detection, power distribution communication network, time-frequency domain features, deep forest, parallel computing

CLC Number:

TP393

Zhenglei ZHOU, Jun CHEN, Juntao PAN, Peisen YUAN. Parallel deep-forest-based abnormal traffic detection for power distribution communication networks[J]. Journal of East China Normal University(Natural Science), 2023, 2023(5): 122-134.

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算法	准确率/%	召回率/%	误报率/%
Improved-DF	98.29	97.72	2.63
GRU-CNN	94.83	93.67	5.41
ABC-SVM	88.39	84.38	9.94
RF	91.26	86.31	8.17

算法	召回率/%					误报率/%
算法	正常流量	DDos	Probe	U2R	R2L	正常流量	DDos	Probe	U2R	R2L
Improved-DF	98.90	98.24	96.13	97.54	98.81	1.21	1.92	2.06	4.71	3.42
GRU-CNN	94.65	92.45	91.47	93.69	95.90	1.95	2.86	4.57	5.86	4.67
ABC-SVM	90.22	87.41	83.01	86.88	91.07	5.94	6.15	7.28	10.26	9.19
RF	89.54	88.13	84.54	85.35	87.61	3.38	7.53	9.01	6.89	8.47

并行度	耗时/s			加速比 $ {S}_{原始} $	加速比 $ {S}_{默认} $
并行度	深度森林原始算法	Flink默认调度方法	Flink改进调度方法	加速比 $ {S}_{原始} $	加速比 $ {S}_{默认} $
6	451.7	210.4	172.1	2.62	1.22
12	451.7	149.6	137.2	3.29	1.09
18	451.7	133.5	112.8	4.01	1.18

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