基于Aquila优化器和混合LSTM-SVM分类器的Android应用恶意软件检测

IF 1.1 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS EAI Endorsed Transactions on Scalable Information Systems Pub Date : 2022-08-22 DOI:10.4108/eetsis.v9i4.2565
M. Grace, M. Sughasiny
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引用次数: 2

摘要

简介:Android操作系统是世界上最新使用的智能手机平台,占有约80%的市场份额。在google play商店中,有348万个应用程序可供下载。不幸的是,google play商店和第三方应用商店中恶意应用的增长速度已经成为一个大问题,这阻碍了Android智能手机生态系统的发展。目的:在最近的调查中,每10秒就有一个新的恶意应用程序被引入。这些恶意应用程序的构建是为了实现各种威胁,如特洛伊木马、蠕虫、漏洞利用和病毒。为了克服这一问题,设计了一种基于Aquila优化器和混合LSTM-SVM分类器的android应用恶意软件检测新方法。方法:本文利用Aquila优化器进行交叉验证,根据预测精度从CSV文件中选择最优特征,并将交叉验证得到的均方误差(MSE)作为Aquila选择最优特征的适应度函数。结果:将提取的最优特征交给混合LSTM-SVM分类器进行训练和测试,用于预测android系统中的恶意软件类型。结论:该模型是在python 3.8上实现的,其性能指标包括准确性、精度、执行时间、错误等。与LSTM、SVM、RF和NB等现有技术相比,该模型获得的准确率为97%。因此,提出的模型可以即时预测来自android应用程序的恶意软件。
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Malware detection for Android application using Aquila optimizer and Hybrid LSTM-SVM classifier
INTRODUCTION: Android OS is the most recent used smartphone platform in the world that occupies about 80% in share market. In google play store, there are 3.48 million apps available for downloading. Unfortunately, the growth rate of malicious apps in google play store and third party app store has become a big concern, which holds back the development of the Android smartphone ecosystem. OBJECTIVES: In recent survey, a new malicious app has been introduced for every 10 seconds. These malicious apps are built to accomplish a variety of threats, such as Trojans, worms, exploits, and viruses. To overcome this issue, a new efficient and effective approach of malware detection for android application using Aquila optimizer and Hybrid LSTM-SVM classifier is designed. METHODS: In this paper, the optimal features are selected from the CSV file based on the prediction accuracy by cross validation using Aquila optimizer and the mean square error (MSE) obtained by the cross validation is consider as the fitness function for the Aquila to select the optimal features. RESULTS: The extracted optimal features are given to the Hybrid LSTM-SVM classifier for training and testing the features to predict the malware type in the android system. CONCLUSION: This proposed model is implemented on python 3.8 for performance metrics such as accuracy, precision, execution time, error, etc. The acquired accuracy for the proposed model is 97%, which is greater compared to the existing techniques such as LSTM, SVM, RF and NB. Thus, the proposed model instantly predicts the malware from the android application.
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来源期刊
EAI Endorsed Transactions on Scalable Information Systems
EAI Endorsed Transactions on Scalable Information Systems COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
2.80
自引率
15.40%
发文量
49
审稿时长
10 weeks
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