Saba Qasim Jabbar scite author profile

Saba Qasim Jabbar

3Publications

55Citation Statements Received

61Citation Statements Given

How they've been cited

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Affiliations

University of Baghdad, Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics

Publications

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Wireless Indoor Localization Systems and Techniques: Survey and Comparative Study

Khudhair¹,

Jabbar²,

Sulttan³

et al. 2016

IJEECS

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<p>The popularity, great influence and huge importance made wireless indoor localization has a unique touch, as well its wide successful on positioning and tracking systems for both human and assists also contributing to take the lead from outdoor systems in the scope of the recent research works. In this work, we will attempt to provide a survey of the existing indoor positioning solutions and attempt to classify different its techniques and systems. Five typical location predication approaches (triangulation, fingerprinting, proximity, vision analysis and trilateration) are considered here in order to analysis and provide the reader a review of the recent advances in wireless indoor localization techniques and systems to have a good understanding of state of the art technologies and motivate new research efforts in this promising direction. For these reasons, existing wireless localization position systems and location estimation schemes are reviewed. We also made a comparison among the related techniques and systems along with conclusions and future trends to identify some possible areas of enhancements. </p>

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Analysis and Evaluation of Performance Gains and Tradeoffs for Massive MIMO Systems

Jabbar

2016

Applied Sciences

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Abstract:Massive MIMO technique offers significant performance gains for the future of wireless communications via improving the spectral efficiency, energy efficiency and the channel quality with simple linear processing such as maximum-ratio transmission (MRT) or zero-forcing (ZF) by providing each user a large degree of freedom. In this paper, the system performance gains are studied in a multi-cell downlink massive MIMO system under the main considerations such as perfect channel estimation, imperfect channel estimation and the effect of interference among cells due to pilot sequences contamination. Then, mathematical expressions are derived for these gains i.e., spatial multiplexing gain, array gain and spatial diversity gain. After that, essential tradeoffs among these gains are considered under the effect of non-orthogonal interference, these tradeoffs are: spatial diversity gain vs. spatial multiplexing gain and array gain vs. spatial multiplexing gain. Simulation results show that the unbounded number of base station antennas boosts the array gain through concentrating the energy to spatial directions where users are sited, hence diminishing loss in array gain due to pilot contamination. The simulation results reveal also that massive MIMO strengthens the spatial multiplexing gain through increasing the number of served users via the same system resources in spite the effect of inter-cell interference. Finally, the spatial diversity gain is measured in term of outage probability and the simulation results show that raising the number of antennas will improve the outage probability. Meanwhile increasing the number of served users will lead to degrade the outage probability per user due to non-orthogonal interference from other cells.

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Quality of Service (QoS) for 5G Networks

Aljiznawi¹,

Alkhazaali²,

Jabbar³

et al. 2017

IJFCC

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Abstract-This work explores some important number of key performance indicators (KPIs) that may affect on the quality of service (QoS) in 5G networks. The proposed QoS necessities are based on the analysis of functional requirements to 5G networks and traffic parameters for HD video and massive M2M services, which will be highly demanded in 2020. One of the 5G development paradigms is the network functions virtualization (NFV) including cloud radio access and cloud core networks. This work has planned the concept of function blocks; cloud QoS management function (CQMF) and cloud QoS control function (CQCF) to control and monitor QoS, which is implemented as part of the 5G network cloud infrastructure.Index Terms-5G, M2M, QoS, video services, virtualization.

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