恶意软件行为分析:使用机器学习进行类型分类

2015 International Conference on Cyber Situational Awareness, Data Analytics and Assessment (CyberSA) Pub Date : 2015-06-08 DOI:10.1109/CyberSA.2015.7166115

Radu S. Pirscoveanu, Steven S. Hansen, Thor M. T. Larsen, Matija Stevanovic, J. Pedersen, A. Czech

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引用次数: 97

摘要

恶意软件已经成为现代社会的主要威胁，不仅是因为恶意软件本身的复杂性增加，而且还因为每天都有新的恶意软件呈指数级增长。本研究解决了以可扩展和自动化的方式对大量恶意软件进行分析和分类的问题。我们通过扩展Cuckoo Sandbox开发了一个分布式恶意软件测试环境，用于测试大量恶意软件样本并跟踪其行为数据。提取的数据用于开发一种基于监督机器学习的新型类型分类方法。本文提出的分类方法采用了一种新颖的特征组合，使用随机森林分类器实现了较高的分类率，加权平均AUC值为0.98。该方法已经在总共42000个恶意软件样本上进行了广泛的测试。基于以上结果，认为所开发的系统可以在未来的恶意软件分析系统中用于从已知恶意软件中预过滤新的恶意软件。

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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Analysis of Malware behavior: Type classification using machine learning

Malicious software has become a major threat to modern society, not only due to the increased complexity of the malware itself but also due to the exponential increase of new malware each day. This study tackles the problem of analyzing and classifying a high amount of malware in a scalable and automatized manner. We have developed a distributed malware testing environment by extending Cuckoo Sandbox that was used to test an extensive number of malware samples and trace their behavioral data. The extracted data was used for the development of a novel type classification approach based on supervised machine learning. The proposed classification approach employs a novel combination of features that achieves a high classification rate with a weighted average AUC value of 0.98 using Random Forests classifier. The approach has been extensively tested on a total of 42,000 malware samples. Based on the above results it is believed that the developed system can be used to pre-filter novel from known malware in a future malware analysis system.

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来源期刊

2015 International Conference on Cyber Situational Awareness, Data Analytics and Assessment (CyberSA)

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