Mohammed Hawa scite author profile

Summary In cases where the licensed radio spectrum is underutilized, cognitive radio technology enables cognitive devices to sense and then dynamically access this scarce resource making the most out of it. In this work, we introduce a simple and intuitive, yet powerful and efficient, technique that allows opportunistic channel access in cognitive radio systems in a completely distributed fashion. Our proposed method achieves very high values of spectrum utilization and throughput. It also minimizes interference between cognitive base stations and the primary users licensed to use the spectrum. The algorithm responds quickly and efficiently to variations in the network parameters and also achieves a high degree of fairness between cognitive base stations. Copyright © 2016 John Wiley & Sons, Ltd.

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MT-CHR: A modified threshold-based cluster head replacement protocol for wireless sensor networks

Darabkh

Al-Rawashdeh

Hawa

et al. 2018

Computers & Electrical Engineering

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A Self-Learning MAC Protocol for Energy Harvesting and Spectrum Access in Cognitive Radio Sensor Networks

et al. 2016

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The fusion of Wireless Sensor Networks (WSNs) and Cognitive Radio Networks (CRNs) into Cognitive Radio Sensor Networks (CRSNs) is quite an attractive proposal, because it allows a distributed set of low-powered sensor nodes to opportunistically access spectrum bands that are underutilized by their licensed owners (called primary users (PUs)). In addition, when the PUs are actively transmitting in their own bands, sensor nodes can switch to energy harvesting mode to obtain their energy needs (for free), to achieve almost perpetual life. In this work, we present a novel and fully distributed MAC protocol, calledS-LEARN, that allows sensor nodes in a CRSN to entwine their RF energy harvesting and data transmission activities, while intelligently addressing the issue of disproportionate difference between the high power necessary for the node to transmit data packets and the small amount of power it can harvest wirelessly from the environment. The presented MAC protocol can improve both the network throughput and total harvested energy, while being robust to changes in the network configuration. Moreover, S-LEARN can keep the cost of the system low, and it avoids the pitfalls from which centralized systems suffer.

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Invasive weed optimization for model order reduction of linear MIMO systems

Abu-Al-Nadi

Alsmadi

Abo-Hammour

et al. 2013

Applied Mathematical Modelling

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Mohammed Hawa

Quality of service scheduling in cable and broadband wireless access systems

Distributed opportunistic spectrum sharing in cognitive radio networks

MT-CHR: A modified threshold-based cluster head replacement protocol for wireless sensor networks

A Self-Learning MAC Protocol for Energy Harvesting and Spectrum Access in Cognitive Radio Sensor Networks

Invasive weed optimization for model order reduction of linear MIMO systems

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