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Social Engineering based Security Requirements Recommendation Framework to Prevent an Advanced Persistent Threat
http://doi.org/10.5626/JOK.2018.45.10.1015
Advanced Persistent Threat (APT) is a major threat to Socio-Technical System, which constitutes our society. This threat is an attack process rather than a hacking technique, unlike traditional methods of cyberbullying, so it is difficult to detect or defend a wide range of targets for a long period of time using a wide range of exploits. In particular, traditional advanced threats involve technical approaches, such as firewalls, log checks, and packet analysis, in which the first stage of the intelligent, sustained threat analysis involves the ease with which human vulnerabilities are pursued during the early stages of the process. This paper proposes a framework that analyzes the vulnerable social perspective based on the various human factors to prevent advanced persistent threats by using three-layered approach and recommends a security requirement to complement them by using ontology-based approach.
Framework-assisted Selective Page Protection for Improving Interactivity of Linux Based Mobile Devices
Seungjune Kim, Jungho Kim, Seongsoo Hong
While Linux-based mobile devices such as smartphones are increasingly used, they often exhibit poor response time. One of the factors that influence the user-perceived interactivity is the high page fault rate of interactive tasks. Pages owned by interactive tasks can be removed from the main memory due to the memory contention between interactive and background tasks. Since this increases the page fault rate of the interactive tasks, their executions tend to suffer from increased delays. This paper proposes a framework-assisted selective page protection mechanism for improving interactivity of Linux-based mobile devices. The framework-assisted selective page protection enables the run-time system to identify interactive tasks at the framework level and to deliver their IDs to the kernel. As a result, the kernel can maintain the pages owned by the identified interactive tasks and avoid the occurrences of page faults. The experimental results demonstrate the selective page protection technique reduces response time up to 11% by reducing the page fault rate by 37%.
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