集成学习在入侵检测系统中的概念漂移适应

Int. J. Nat. Comput. Res. Pub Date : 2021-10-01 DOI:10.4018/ijncr.2021100101

Deepa C. Mulimani, S. G. Totad, Prakashgoud R. Patil

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引用次数: 1

摘要

入侵检测系统(IDS)面临的主要挑战是快速识别新的攻击，从对手那里学习，并立即更新入侵检测。IDS在动态环境中运行，受到不断发展的数据流的影响，其中数据可能来自不同的分布。这就是所谓的概念漂移问题。今天的IDS虽然配备了深度学习算法，但大多数时候都无法识别概念漂移。本文提出了一种检测和适应流数据中概念漂移的技术，这些数据具有IDS中常见的大量特征。针对IDS中漂移的适应性和大数据集的优化问题，改进了极限梯度增强(XGB)算法。主要目标是减少预测中的“假阳性”和“假阴性”的数量。该方法在较小和较大的流数据上进行了测试，并与非自适应XGBoost和逻辑回归进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Concept Drift Adaptation in Intrusion Detection Systems Using Ensemble Learning

The primary challenge of intrusion detection systems (IDS) is to rapidly identify new attacks, learn from the adversary, and update the intrusion detection immediately. IDS operate in dynamic environments subjected to evolving data streams where data may come from different distributions. This is known as the problem of concept drift. Today's IDS though are equipped with deep learning algorithms most of the times fail to identify concept drift. This paper presents a technique to detect and adapt to concept drifts in streaming data with a large number of features often seen in IDS. The study modifies extreme gradient boosting (XGB) algorithm for adaptability of drifts and optimization for large datasets in IDS. The primary objective is to reduce the number of ‘false positives' and ‘false negatives' in the predictions. The method is tested on streaming data of smaller and larger sizes and compared against non-adaptive XGBoost and logistic regression.

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Int. J. Nat. Comput. Res.

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