A
Ahmad Shokair
Researcher at Intelligence and National Security Alliance
Publications - 8
Citations - 22
Ahmad Shokair is an academic researcher from Intelligence and National Security Alliance. The author has contributed to research in topics: Broadband networks & Unicast. The author has an hindex of 2, co-authored 8 publications receiving 14 citations. Previous affiliations of Ahmad Shokair include Lebanese University & University of Rennes.
Papers
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Proceedings ArticleDOI
Analytical Study of the Probability of Coverage in Hybrid Broadcast-Unicast Networks
TL;DR: A hybrid broadcast/unicast network model is discussed where an analytical approach was undertaken, deriving a new expression for the probability of coverage and the model is used to assess the feasibility of the proposed hybrid scheme and then extended to numerically find the optimal operation point in terms of key design parameters including user density in the network.
Journal Article
On the Coexistence of Broadcast and Unicast Networks for the Transmission of Video Services Using Stochastic Geometry
TL;DR: This paper presents a first reference work dealing with the optimization of the hybrid network with the coexistence of broadband and broadcast networks, from stochastic geometry perspective, taking into account the inter-cell interference.
Proceedings ArticleDOI
Power Efficiency of the Hybrid Broadcast Unicast Network with Suitable Resource Allocation
TL;DR: Results have shown that an optimal operation point could be found, and that the gain provided by the hybrid network depends on the density of the users.
Journal ArticleDOI
Analysis of Hybrid Broadcast/Broadband Networks With Multiple Broadcasting Stations
TL;DR: This paper introduces a generic model of the HBBN where multiple broadcast transmitters and a broadband network are deployed in the same area, jointly offering linear services, one of the mobile TV services and shows that for a wide range of user density, the H BBN introduces gain compared to either BB or BC networks.
Journal ArticleDOI
Wide band digital predistortion using iterative feedback decomposition
TL;DR: The proposed digital predistortion technique has almost the same performance as the other methods with an ACPR of − 60 dB and reduces considerably the constraints on the ADC and the power calculation resources.