Abstract: This research explores the integration of Gradient Boosting Algorithms, specifically XGBoost and LightGBM, in the context of dynamic threat landscape analysis and the development of adaptive response strategies for Intrusion Detection and Prevention Systems (IDPS). The study aims to enhance the accuracy and adaptability of IDPS by leveraging the strengths of these machine learning algorithms. The research methodology involves the comprehensive collection and curation of diverse datasets representative of contemporary cyber threats. Through dynamic threat analysis, our approach empowers IDPS to discern emerging patterns and anomalies in real-time, fostering a proactive response to potential security breaches. The core innovation lies in the incorporation of ensemble learning algorithms, which bolster the adaptability of IDPS. This adaptive framework enables effective responses to evolving threats by continuously learning and refining its detection capabilities.

The proposed methodology undergoes rigorous evaluation through extensive experiments, comparing its performance against traditional methods. Initial findings showcase a substantial enhancement in both precision and recall metrics, underscoring the practical efficacy of our adaptive approach. As cyber threats become increasingly sophisticated, the proposed approach offers a resilient defense mechanism, capable of intelligently responding to a diverse array of threats. This study stands as a beacon in the ongoing pursuit of fortified cybersecurity infrastructures, with implications for the broader landscape of digital security and threat mitigation.

Keywords: Cybersecurity, IDPS, Machine Learning, Real-time Threat Detection, Network Security, XGBoost Algorithm, LightGBM Algorithm.

Mansoor Farooq, Mubashir Hassan Khan, Rafi A Khan,"Dynamic Threat Landscape Analysis and Adaptive Response Strategies for Intrusion Detection and Prevention Systems Using Advance Gradient Boosting Algorithms", IJARCCE International Journal of Advanced Research in Computer and Communication Engineering, vol. 13, no. 2, 2024, Crossref https://doi.org/10.17148/IJARCCE.2024.13243.

PDF | DOI: 10.17148/IJARCCE.2024.13243

Open chat
Chat with IJARCCE