A Deep Learning Based Android Malware Detection System with Static Analysis
Künye
BAYAZİT, Esra Calik, Ozgur Koray SAHİNGOZ & Buket DOGAN. "A Deep Learning Based Android Malware Detection System with Static Analysis". 4th International Congress on Human-Computer Interaction, Optimization and Robotic Applications, HORA 2022, (2022).Özet
In recent years, smart mobile devices have become
indispensable due to the availability of office applications, the
Internet, game applications, vehicle guidance or similar most of
our daily lives applications in addition to traditional services such
as voice calls, SMSs, and multimedia services. Due to Android’s
open source structure and easy development platforms, the
number of applications on Google Play, the official Android app
store increased day by day. This also brig some security related
issues for the end users. The increased popularity of Android
operating system on mobile devices, and the associated financial
benefits attracted attackers for developing some malware for
these devices, which results a significant increase in the number
of Android malware applications. To detect this type of security
threats, signature based detection (static detection) in generally
preferred due to its easy applicability and fast identification
ability. Therefore in this study it is aimed to implement an upto-date, effective, and reliable malware detection system with the
help of some deep learning algorithms. In the proposed system,
RNN-based LSTM, BiLSTM and GRU algorithms are evaluated
on CICInvesAndMal2019 data set which contains 8115 static
features for malware detection. Experimental results show that
the BiLSTM model outperforms other proposed RNN-based deep
learning methods with an accuracy rate of 98.85%.