Visible to the public Biblio

Filters: Author is Alqarni, Mansour  [Clear All Filters]
2023-07-13
Alqarni, Mansour, Azim, Akramul.  2022.  Mining Large Data to Create a Balanced Vulnerability Detection Dataset for Embedded Linux System. 2022 IEEE/ACM International Conference on Big Data Computing, Applications and Technologies (BDCAT). :83–91.
The security of embedded systems is particularly crucial given the prevalence of embedded devices in daily life, business, and national defense. Firmware for embedded systems poses a serious threat to the safety of society, business, and the nation because of its robust concealment, difficulty in detection, and extended maintenance cycle. This technology is now an essential part of the contemporary experience, be it in the smart office, smart restaurant, smart home, or even the smart traffic system. Despite the fact that these systems are often fairly effective, the rapid expansion of embedded systems in smart cities have led to inconsistencies and misalignments between secured and unsecured systems, necessitating the development of secure, hacker-proof embedded systems. To solve this issue, we created a sizable, original, and objective dataset that is based on the latest Linux vulnerabilities for identifying the embedded system vulnerabilities and we modified a cutting-edge machine learning model for the Linux Kernel. The paper provides an updated EVDD and analysis of an extensive dataset for embedded system based vulnerability detection and also an updated state of the art deep learning model for embedded system vulnerability detection. We kept our dataset available for all researchers for future experiments and implementation.
2023-04-14
Raavi, Rupendra, Alqarni, Mansour, Hung, Patrick C.K.  2022.  Implementation of Machine Learning for CAPTCHAs Authentication Using Facial Recognition. 2022 IEEE International Conference on Data Science and Information System (ICDSIS). :1–5.
Web-based technologies are evolving day by day and becoming more interactive and secure. Completely Automated Public Turing test to tell Computers and Humans Apart (CAPTCHA) is one of the security features that help detect automated bots on the Web. Earlier captcha was complex designed text-based, but some optical recognition-based algorithms can be used to crack it. That is why now the captcha system is image-based. But after the arrival of strong image recognition algorithms, image-based captchas can also be cracked nowadays. In this paper, we propose a new captcha system that can be used to differentiate real humans and bots on the Web. We use advanced deep layers with pre-trained machine learning models for captchas authentication using a facial recognition system.