Y.M. Raji scite author profile

Connectivity in recent wireless communication is accessible anywhere because of the large footprints of both cellular and WiFi networks. Yet, the broadcasting in wireless technology increases the susceptibility of signals to contemporary challenges such as interference, fading, and distortion. In addition, the energy of signals is lost because of Doppler effects and scattering caused by the obstacles in the channel. The use of smaller base stations, exploitation of higher frequencies and millimetre waves, and the expansion towards massive multiple‐input multiple‐output makes beamforming one of the most important key technologies in fifth generation (5G) systems. Besides the energy efficiency enhancements because of the narrower beamwidths, it reduces the broadcasting probability by adaptively steering the signals towards the targeted receivers while reducing the reception for nearby receiver, that is less interference. It also increases the energy efficiency of the signals because of the narrow beamwidth. In this work, the 5G technology challenges, two of the most known channel models, applications is briefly received. The fundamentals of beamforming technology are also described and provide the necessary information to understand the technology.

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Packaged in-line Mach–Zehnder interferometer for highly sensitive curvature and flexural strain sensing

Lin

Raji

Lim

et al. 2016

Sensors and Actuators A: Physical

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Low-Cost Integration of MIMO-RoF based on 5G UFMC Waveform and Wired OFDM Signal over PON

Dahawi

Raji

Yusoff

et al. 2020

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60GHZ MIMO-GFDM RoF Over OFDM-PON

Raji

Dahawi

Yusoff

et al. 2022

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Y.M. Raji

Intensity-modulated abrupt tapered Fiber Mach-Zehnder Interferometer for the simultaneous sensing of temperature and curvature

Towards green communication in 5G systems: Survey on beamforming concept

Packaged in-line Mach–Zehnder interferometer for highly sensitive curvature and flexural strain sensing

Low-Cost Integration of MIMO-RoF based on 5G UFMC Waveform and Wired OFDM Signal over PON

60GHZ MIMO-GFDM RoF Over OFDM-PON

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