多数投票勒索软件检测系统

Simon R. Davies, Richard Macfarlane, W. Buchanan
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引用次数: 0

摘要

加密勒索软件对政府和企业都是一个重大威胁,备受瞩目的网络安全事件经常成为头条新闻。许多不同的检测系统已经被提出作为不断变化的勒索软件检测动态景观的解决方案。在大多数情况下,这些描述的系统根据对可执行代码、被调查的过程、其行为或其输出执行的单个测试的结果提出一种方法。在勒索软件检测系统的一小部分中,采用记分卡的概念,对正在调查的过程的各个方面执行多个测试,然后使用机器学习分析其结果。本文的目的是通过开发一种方法来提出一种新的多数投票方法来检测勒索软件,该方法使用基于算法而不是启发式技术计算的离散测试得出的累积分数。本文描述了23个候选测试,以及9个经过验证的Windows API测试,以确定它们在反软件检测系统中使用的准确性和可行性。使用累积分数计算方法进行勒索软件检测有几个好处,例如在进行最终分类时,可以避免个别测试偶尔出现的不准确性。系统还可以利用多种测试,这些测试既全面又互补,以尝试实现对所调查的程序的更广泛、更深入和更健壮的分析。此外,多重协作测试的使用也大大阻碍了勒索软件掩盖或修改其行为以试图绕过检测。本研究的结果表明,许多提出的测试在区分良性和恶意目标方面达到了很高的准确性,并就如何调整这些测试以及测试组合以进一步提高检测准确性提出了建议。
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Majority Voting Ransomware Detection System
Crypto-ransomware remains a significant threat to governments and companies alike, with high-profile cyber security incidents regularly making head-lines. Many different detection systems have been proposed as solutions to the ever-changing dynamic landscape of ransomware detection. In the majority of cases, these described systems propose a method based on the result of a single test performed on either the executable code, the process under investigation, its behaviour, or its output. In a small subset of ransomware detection systems, the concept of a scorecard is employed where multiple tests are performed on various aspects of a process under investigation and their re-sults are then analysed using machine learning. The purpose of this paper is to propose a new majority voting approach to ransomware detection by developing a method that uses a cumulative score derived from discrete tests based on calculations using algorithmic rather than heuristic techniques. The paper describes 23 candidate tests, as well as 9 Windows API tests which are validated to determine both their accuracy and viability for use within a ran-somware detection system. Using a cumulative score calculation approach to ransomware detection has several benefits, such as the immunity to the occasional inaccuracy of individual tests when making its final classification. The system can also leverage multiple tests that can be both comprehensive and complimentary in an attempt to achieve a broader, deeper, and more robust analysis of the program under investigation. Additionally, the use of multiple collaborative tests also significantly hinders ransomware from masking or modifying its behaviour in an attempt to bypass detection. The results achieved by this research demonstrate that many of the proposed tests achieved a high degree of accuracy in differentiating between benign and malicious targets and suggestions are offered as to how these tests, and combinations of tests, could be adapted to further improve the detection accuracy.
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