Fadi Aloul
American University of Sharjah
132 Papers
976 Citations
Fadi Aloul is an academic researcher from American University of Sharjah. The author has contributed to research in topics: Boolean satisfiability problem & Computer science. The author has an hindex of 30, co-authored 126 publications. Previous affiliations of Fadi Aloul include University of Michigan & American University in Dubai.
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Papers
Internet of things (IoT) security: Current status, challenges and prospective measures
Rwan Mahmoud,Tasneem Yousuf,Fadi Aloul,Imran A. Zualkernan +3 more
- 01 Dec 2015
TL;DR: An overview of security principles, technological and security challenges, proposed countermeasures, and the future directions for securing the IoT is presented.
773
A Mobile GPRS-Sensors Array for Air Pollution Monitoring
TL;DR: An online GPRS-Sensors Array for air pollution monitoring has been designed, implemented, and tested as mentioned in this paper, which consists of a Mobile Data-Acquisition Unit (Mobile-DAQ) and a fixed Internet-enabled Pollution Monitoring Server (Pollution-Server).
386
Two factor authentication using mobile phones
Fadi Aloul,Syed Zahidi,Wassim El-Hajj +2 more
- 10 May 2009
TL;DR: This paper describes a method of implementing two factor authentication using mobile phones that guarantees that authenticating to services, such as online banking or ATM machines, is done in a very secure manner.
Smart Grid Security: Threats, Vulnerabilities and Solutions
TL;DR: The complexity of the smart grid network is highlighted and the vulnerabilities specific to this huge heterogeneous network are discussed, and how the current security solutions applied for IT networks are not sufficient to secure smart grid networks.
A comparative study of two Boolean formulations of FPGA detailed routing constraints
TL;DR: It is demonstrated that the route-based formulation of Boolean SAT-based routing yields an easier-to-evaluate and more scalable routability Boolean function than the track-based method, providing empirical evidence that a smart/efficient Boolean formulation can achieve significant performance improvement in real-world applications.