通过机器学习全面评估恶意软件检测中的 Mal-API-2019 数据集

ArXiv Pub Date : 2024-03-04 DOI:10.62051/ijcsit.v2n1.01
Zhenglin Li, Haibei Zhu, Houze Liu, Jintong Song, Qishuo Cheng
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引用次数: 6

摘要

本研究利用机器学习技术对恶意软件检测进行了深入研究,重点是利用 Mal-API-2019 数据集对各种分类模型进行评估。目的是通过更有效地识别和缓解威胁来提高网络安全能力。研究探讨了集合和非集合机器学习方法,如随机森林(Random Forest)、XGBoost、K Nearest Neighbor (KNN) 和神经网络。特别强调了数据预处理技术(尤其是 TF-IDF 表示法和主成分分析)在提高模型性能方面的重要性。结果表明,与其他方法相比,集合方法(尤其是随机森林和 XGBoost)在准确度、精确度和召回率方面表现出更高的水平,突出了它们在恶意软件检测中的有效性。论文还讨论了局限性和潜在的未来发展方向,强调需要不断调整以应对恶意软件不断演变的性质。这项研究为网络安全领域正在进行的讨论做出了贡献,并为在数字时代开发更强大的恶意软件检测系统提供了实用的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comprehensive evaluation of Mal-API-2019 dataset by machine learning in malware detection
This study conducts a thorough examination of malware detection using machine learning techniques, focusing on the evaluation of various classification models using the Mal-API-2019 dataset. The aim is to advance cybersecurity capabilities by identifying and mitigating threats more effectively. Both ensemble and non-ensemble machine learning methods, such as Random Forest, XGBoost, K Nearest Neighbor (KNN), and Neural Networks, are explored. Special emphasis is placed on the importance of data pre-processing techniques, particularly TF-IDF representation and Principal Component Analysis, in improving model performance. Results indicate that ensemble methods, particularly Random Forest and XGBoost, exhibit superior accuracy, precision, and recall compared to others, highlighting their effectiveness in malware detection. The paper also discusses limitations and potential future directions, emphasizing the need for continuous adaptation to address the evolving nature of malware. This research contributes to ongoing discussions in cybersecurity and provides practical insights for developing more robust malware detection systems in the digital era.
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