M. F. L. Abdullah scite author profile

Device-to-device (D2D) communication is one of the most promising technologies in wireless cellular networks that can be employed to improve spectral and energy efficiency, increase data rates, and reduce links latency. This paper investigates fifth generation and beyond (5GB) networks, the basics of D2D communication, applications, and classification. Herein, D2D in in-band (IBD) and out-band (OBD) modes are discussed. This paper also presents the integration of D2D communication with other prominent technologies and demonstrates the importance of integration with possible solutions in improving network performance. We further investigate the challenges of D2D communication, opportunities, and future research directions of D2D in 5GB networks. In addition, D2D communication in 6G network challenges and open research areas are introduced.INDEX TERMS 5G, 5GB, 6G, D2D communication, millimeter wave (mm-Wave), visible light communication (VLC), ultra-dense network (UDN), and unmanned aerial vehicle (UAV).

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The potential of FBMC over OFDM for the future 5G mobile communication technology

Ibrahim¹,

Abdullah²

2017

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Design of an optical attocells configuration for an indoor visible light communications system

Gismalla

Abdullah

Das

et al. 2019

AEU - International Journal of Electronics and Communications

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Performance evaluation of optical attocells configuration in an indoor visible light communication

Gismalla

Abdullah

2019

IJEECS

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Visible light communication VLC is deemed as futuristic technology applied for both illumination and data communication due to the low-cost energy consumption, long life expectancy, huge bandwidth, and high security compared to radio frequency RF. Uncovered area, minimum signal-to-noise ratio (SNR) and received power results from the non-uniform distribution of small base stations (i.e. Optical attocells) in the room. In this paper, the researchers propose a new LEDs distribution of five optical attocells configuration model in order to optimize the received power distribution and SNR at the center of the room for indoor VLC system. The optical attocells configuration in terms of received power to fill the uncovered area at the center of the room has been investigated. The simulation results showed that the proposed attocells configuration saved 24.9% of the transmitted power. Besides that, the whole room was covered uniformly. As a result, the received power and SNR are improved.

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Availability analysis of terrestrial free space optical (FSO) link using visibility data measured in tropical region

Shumani

Abdullah

Basahel

2018

Optik

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M. F. L. Abdullah

Survey on Device to Device (D2D) Communication for 5GB/6G Networks: Concept, Applications, Challenges, and Future Directions

The potential of FBMC over OFDM for the future 5G mobile communication technology

Design of an optical attocells configuration for an indoor visible light communications system

Performance evaluation of optical attocells configuration in an indoor visible light communication

Availability analysis of terrestrial free space optical (FSO) link using visibility data measured in tropical region

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