While the Android operating system is popular among users, it has also attracted a broad variety of miscreants and malware. New samples are discovered every day. Purely automatic analysis is often not enough for understanding current state-of-the-art Android malware, though. Miscreants obfuscate and encrypt their code, or hide secrets in native code. Precisely identifying the malware's behavior and finding information about its potential authors requires tools that assist human experts in a manual investigation. In this paper, we present CodeInspect, a novel reverse engineering tool for Android app that optimally supports investigators and analysts in that task
International audienceNative code is now commonplace within Android app packages where it co-exists ...
According to the Symantec and F-Secure threat reports, mobile malware development in 2013 and 2014 h...
A paper co-authored by William Glisson published in the Proceedings of the 50th Hawaii International...
Malicious reverse engineering is a prominent activity conducted by attackers to plan their code tamp...
Abstract—Smart mobile devices have been widely used and the contained sensitive information is endan...
Similar to the PC world, the abundance of mobile malware has become a serious threat to smartphone u...
The increasing number of repeated malware penetrations into official mobile app markets poses a high...
Expecting the shipment of 1 billion Android devices in 2017, cyber criminals have naturally extended...
First we report on a new threat campaign, underway in Korea, which infected around 20,000 Android us...
This research paper is focused on the issue of mobile application malware detection by Reverse Engin...
The recent past has shown that Android smartphones became the most popular target for malware author...
At a time when mobile security is of paramount importance, this project aims to investigate how, ins...
The usage and ownership of mobile devices is increasing globally. Our reliance on mobile devices and...
Mobile malware has recently become an acute problem. Existing solutions either base static reasoning...
Programs are not immutable. In fact, most programs are under constant changes for security (e.g, vul...
International audienceNative code is now commonplace within Android app packages where it co-exists ...
According to the Symantec and F-Secure threat reports, mobile malware development in 2013 and 2014 h...
A paper co-authored by William Glisson published in the Proceedings of the 50th Hawaii International...
Malicious reverse engineering is a prominent activity conducted by attackers to plan their code tamp...
Abstract—Smart mobile devices have been widely used and the contained sensitive information is endan...
Similar to the PC world, the abundance of mobile malware has become a serious threat to smartphone u...
The increasing number of repeated malware penetrations into official mobile app markets poses a high...
Expecting the shipment of 1 billion Android devices in 2017, cyber criminals have naturally extended...
First we report on a new threat campaign, underway in Korea, which infected around 20,000 Android us...
This research paper is focused on the issue of mobile application malware detection by Reverse Engin...
The recent past has shown that Android smartphones became the most popular target for malware author...
At a time when mobile security is of paramount importance, this project aims to investigate how, ins...
The usage and ownership of mobile devices is increasing globally. Our reliance on mobile devices and...
Mobile malware has recently become an acute problem. Existing solutions either base static reasoning...
Programs are not immutable. In fact, most programs are under constant changes for security (e.g, vul...
International audienceNative code is now commonplace within Android app packages where it co-exists ...
According to the Symantec and F-Secure threat reports, mobile malware development in 2013 and 2014 h...
A paper co-authored by William Glisson published in the Proceedings of the 50th Hawaii International...