Ransomware Detection System for Android Applications

Android ransomware is one of the most threatening attacks nowadays. Ransomware in general encrypts or locks the files on the victim’s device and requests a payment in order to recover them. The available technologies are not enough as new ransomwares employ a combination of techniques to e...

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Bibliographic Details
Main Authors: Samah Alsoghyer, Iman Almomani
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Electronics
Subjects:
Online Access:https://www.mdpi.com/2079-9292/8/8/868
Description
Summary:Android ransomware is one of the most threatening attacks nowadays. Ransomware in general encrypts or locks the files on the victim’s device and requests a payment in order to recover them. The available technologies are not enough as new ransomwares employ a combination of techniques to evade anti-virus detection. Moreover, the literature counts only a few studies that have proposed static and/or dynamic approaches to detect Android ransomware in particular. Additionally, there are plenty of open-source malware datasets; however, the research community is still lacking ransomware datasets. In this paper, the state-of-the-art of Android ransomware detection approaches were investigated. A deep comparative analysis was conducted which shed the key differences among the existing solutions. An application programming interface (API)-based ransomware detection system (API-RDS) was proposed to provide a static analysis paradigm for detecting Android ransomware apps. API-RDS focuses on examining API packages’ calls as leading indicator of ransomware activity to discriminate ransomware with high accuracy before it harms the user’s device. API packages’ calls of both benign and ransomware apps were thoroughly analyzed and compared. Significant API packages with corresponding methods were identified. The experimental results show that API-RDS outperformed other recent related approaches. API-RDS achieved 97% accuracy while reducing the complexity of the classification model by 26% due to features reduction. Moreover, this research designed a proactive mechanism based on a high quality unique ransomware dataset without duplicated samples. 2959 ransomware samples were collected, tested and reduced by almost 83% due to samples duplication. This research also contributes to constructing an up-to-date, unique dataset that covers the majority of existing Android ransomware families and recent clean apps that could be used as a labeled reference for research community.
ISSN:2079-9292