Mansour Moneef Aldosari scite author profile

Mansour Moneef Aldosari

3Publications

6Citation Statements Received

12Citation Statements Given

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Affiliations

University of Manchester

Publications

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Trade-off between energy and area spectral efficiencies of cell zooming and BSs cooperation

Aldosari

Hamdi

2014

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Reducing power consumption in wireless communication networks has been the concern of many researchers over the last decade. In this paper we study the performance of two recently proposed methods for increasing the energy efficiency of green cellular systems, namely base station (BSs) cooperation and cell zooming techniques. We investigate the trade-off between the area spectral efficiency (ASE) and energy efficiency (EE) of these two models and compare this with the basic cellular system, which is used as a reference. We derive novel mathematical expressions for the ergodic capacity in these three systems, which are then are used to compute the ASE and EE of the different scenarios.

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Energy Efficiency of Distributed Antenna Systems Using Fractional Frequency Reuse

Aldosari

Hamdi

2015

IEEE Commun. Lett.

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Performance Analysis of Energy Efficient Distributed Antenna Systems

Aldosari

Hamdi

2015

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There is a huge demand for data traffic caused by increased usage of data-hungry applications on smart mobile devices. This has resulted into cellular network expansion and upgrade that have increased energy costs and generated environmental concerns. Distributed antenna systems (DAS) are applied to enhance the coverage of the cell via geographically distributed antennas elements (DAEs) which are connected to the base station that is located at the centre of the cell. In this paper, DAS is proposed as a network solution to fulfill increasing capacity demands while addressing the energy efficiency (EE) and environmental concerns associated with cellular network operation. Maximum Ratio Transmission (MRT) and Fractional Frequency Reuse (FFR) are applied to calculate the downlink ergodic spectral efficiency (SE), EE and energy consumption ratio (ECR). Nakagami-There is a huge demand for data traffic caused by increased usage of data-hungry applications on smart mobile devices. This has resulted into cellular network expansion and upgrade that have increased energy costs and generated environmental concerns. Distributed antenna systems (DAS) are applied to enhance the coverage of the cell via geographically distributed antennas elements (DAEs) which are connected to the base station that is located at the centre of the cell. In this paper, DAS is proposed as a network solution to fulfill increasing capacity demands while addressing the energy efficiency (EE) and environmental concerns associated with cellular network operation. Maximum Ratio Transmission (MRT) and Fractional Frequency Reuse (FFR) are applied to calculate the downlink ergodic spectral efficiency (SE), EE and energy consumption ratio (ECR). Nakagami-m fading and log-normal shadowing are considered. Our results demonstrate that DAS using MRT and FFR increases the spectral and energy efficiency of the network compared to a basic cellular network system.

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