Android恶意攻击检测模型使用基于权限的机器学习技术

M. Al-Akhras, Abdulrhman ALMohawes, Hani Omar, amer Atawneh, Samah Alhazmi
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引用次数: 0

摘要

Android操作系统是世界上使用最多的移动操作系统,从智能手表、物联网、电视到手机和汽车驾驶舱,它是最受欢迎的操作系统之一。安全性是任何操作系统面临的主要挑战。Android恶意软件攻击和漏洞被称为移动设备的新兴风险。据观察,Android恶意软件的开发速度正在加快。大多数由权限滥用导致的Android安全漏洞都是威胁Android操作系统安全的最严重和最普遍的问题。本研究对恶意软件和非恶意软件应用程序进行了几项研究,以提供最近更新的数据集。提出的模型的目标是找到一种结合噪声清除算法、特征选择技术和分类算法的组合,这些算法具有容噪性,并且可以在检测新的Android恶意软件时获得高精度的结果。实验结果表明,尽管数据集中存在噪声,但所提出的模型能够检测出Android恶意软件,准确率达到87%。我们还发现使用射频算法可以获得最好的分类结果。这项工作可以通过应用更高的噪声比和运行更多的分类器和优化器来扩展。
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Android malicious attacks detection models using machine learning techniques based on permissions
The Android operating system is the most used mobile operating system in the world, and it is one of the most popular operating systems for different kinds of devices from smartwatches, IoT, and TVs to mobiles and cockpits in cars. Security is the main challenge to any operating system. Android malware attacks and vulnerabilities are known as emerging risks for mobile devices. The development of Android malware has been observed to be at an accelerated speed. Most Android security breaches permitted by permission misuse are amongst the most critical and prevalent issues threatening Android OS security. This research performs several studies on malware and non-malware applications to provide a recently updated dataset. The goal of proposed models is to find a combination of noise-cleaning algorithms, features selection techniques, and classification algorithms that are noise-tolerant and can achieve high accuracy results in detecting new Android malware. The results from the empirical experiments show that the proposed models are able to detect Android malware with an accuracy that reaches 87%, despite the noise in the dataset. We also find that the best classification results are achieved using the RF algorithm. This work can be extended in many ways by applying higher noise ratios and running more classifiers and optimizers.
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来源期刊
CiteScore
5.80
自引率
0.00%
发文量
163
审稿时长
8 weeks
期刊最新文献
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