Concurrent Architecture for Automated Malware Classification

2010 43rd Hawaii International Conference on System Sciences Pub Date : 2010-01-05 DOI:10.1109/HICSS.2010.115
Timothy Daly, L. Goldrich
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引用次数: 8

Abstract

This paper introduces a new architecture for automating the generalization of program structure and the recognition of common patterns in the area of malware analysis. By using massively parallel processing on large malware program sets we can recognize common code sequences, such as loop constructs, if-then-else structures, and subroutine calls. We can also recognize common subroutine sequences. The Concordia architecture generalizes the recognized elements so they can be collected into invariant forms. The invariant forms can be used by the analyst to understand the program being analyzed. The invariant forms can also be used to classify large numbers of programs automatically.
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自动恶意软件分类的并发架构
在恶意软件分析领域,本文介绍了一种用于程序结构的自动化泛化和通用模式识别的新体系结构。通过对大型恶意软件程序集使用大规模并行处理,我们可以识别常见的代码序列,例如循环结构、if-then-else结构和子例程调用。我们还可以识别常见的子程序序列。Concordia体系结构概括了已识别的元素,因此它们可以被收集成不变的形式。分析人员可以使用不变形式来理解被分析的程序。不变形式还可以用于对大量程序进行自动分类。
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2010 43rd Hawaii International Conference on System Sciences
2010 43rd Hawaii International Conference on System Sciences
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