Abstract
BackgroundThe ever increasing sophistication of intrusion approaches has led to the dire necessity for developing Intrusion Detection Systems with optimal efficacy. However, existing Intrusion Detection Systems have been developed using outdated attack datasets, with more focus on prediction accuracy and less on prediction latency. The smart Intrusion Detection System framework evolution looks forward to designing and deploying security systems that use various parameters for analyzing current and dynamic traffic trends and are highly time-efficient in predicting intrusions.AimsThis paper proposes a novel approach for a time-efficient and smart Intrusion Detection System.MethodHerein, we propose a Hybrid Feature Selection approach that aims to reduce the prediction latency without affecting attack prediction performance by lowering the model's complexity. Light Gradient Boosting Machine (LightGBM), a fast gradient boosting framework, is used to build the model on the latest CIC-IDS 2018 dataset.ResultsThe proposed feature selection reduces the prediction latency ranging from 44.52% to 2.25% and the model building time ranging from 52.68% to 17.94% in various algorithms on the CIC-IDS 2018 dataset. The proposed model with hybrid feature selection and LightGBM gives 97.73% accuracy, 96% sensitivity, 99.3% precision rate, and comparatively low prediction latency. The proposed model successfully achieved a raise of 1.5% in accuracy rate and 3% precision rate over the existing model. An in-depth analysis of network parameters is also performed, which gives a deep insight into the variation of network parameters during the benign and malicious sessions.
Highlights
The spread and susceptibility of cyberspace have necessitated its perpetual appraisal in terms of security
The proposed feature selection reduces the prediction latency ranging from 44.52% to 2.25% and the model building time ranging from 52.68% to 17.94% in various algorithms on the Canadian Institute for Cybersecurity (CIC)-Intrusion Detection System (IDS) 2018 dataset
13 SwiftIDS: Real-time Intru- To develop an IDS that is Swift intrusion detection 2020 KDD99, NSL-KDD, and sion Detection System capable of processing model is proposed based [22] CICIDS2017 based on LightGBM and large amounts of traffic on light gradient boosting parallel intrusion detection data on high-speed machine (LightGBM) and mechanism networks promptly while parallel intrusion detection maintaining a high level of techniques detection performance
Summary
The proposed feature selection reduces the prediction latency ranging from 44.52% to 2.25% and the model building time ranging from 52.68% to 17.94% in various algorithms on the CIC-IDS 2018 dataset. The proposed model with hybrid feature selection and LightGBM gives 97.73% accuracy, 96% sensitivity, 99.3% precision rate, and comparatively low prediction latency. The proposed model successfully achieved a raise of 1.5% in accuracy rate and 3% precision rate over the existing model. An indepth analysis of network parameters is performed, which gives a deep insight into the variation of network parameters during the benign and malicious sessions
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