2017
DOI: 10.1109/access.2017.2693375
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5G Terrestrial Networks: Mobility and Coverage—Solution in Three Dimensions

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Cited by 17 publications
(6 citation statements)
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“…The classic solution in the microwave bands relies on circular polarization [144], which rotates the signal by simultaneously exciting a pair of orthogonal electric field vectors of equal amplitude, so that a signal component is always received. However, as the power is split between the pair, the employment of circular polarization requires an increased transmit power, which becomes a challengue to deliver in the mmWave band owing to the fact that the PA's dynamic range generally reduces upon increasing the frequency [58], [145]- [147]. Against this background, the state-of-the-art tri-orthogonal polarization technique that was originally proposed for achieving a diversity gain in rich-scattering microwave channels [148], [149] may be harnessed for the three-dimensional beamforming in the LoS-dominant mmWave channels [147], [150], [151].…”
Section: What Has Been Achieved In 5g?mentioning
confidence: 99%
See 3 more Smart Citations
“…The classic solution in the microwave bands relies on circular polarization [144], which rotates the signal by simultaneously exciting a pair of orthogonal electric field vectors of equal amplitude, so that a signal component is always received. However, as the power is split between the pair, the employment of circular polarization requires an increased transmit power, which becomes a challengue to deliver in the mmWave band owing to the fact that the PA's dynamic range generally reduces upon increasing the frequency [58], [145]- [147]. Against this background, the state-of-the-art tri-orthogonal polarization technique that was originally proposed for achieving a diversity gain in rich-scattering microwave channels [148], [149] may be harnessed for the three-dimensional beamforming in the LoS-dominant mmWave channels [147], [150], [151].…”
Section: What Has Been Achieved In 5g?mentioning
confidence: 99%
“…However, as the power is split between the pair, the employment of circular polarization requires an increased transmit power, which becomes a challengue to deliver in the mmWave band owing to the fact that the PA's dynamic range generally reduces upon increasing the frequency [58], [145]- [147]. Against this background, the state-of-the-art tri-orthogonal polarization technique that was originally proposed for achieving a diversity gain in rich-scattering microwave channels [148], [149] may be harnessed for the three-dimensional beamforming in the LoS-dominant mmWave channels [147], [150], [151]. More explicitly, it was demonstrated in [147], [151] that by using three polarized ports, at least two polarizations are always adequately aligned in any link direction.…”
Section: What Has Been Achieved In 5g?mentioning
confidence: 99%
See 2 more Smart Citations
“…In recent studies, circular polarization reconfigurable antennas have attracted more attention for their inherent characteristics such as multipath fading mitigation, phase fluctuation due to weather, and superior mobility [8][9][10][11]. Furthermore, these antennas have diverse polarization and can switch to right/left hand circular polarization (RHCP and LHCP), two horizontal and vertical linear polarizations, and elliptical polarizations [11][12][13]. Several circularly polarized antennas have been recommended for operation in 5G mobile systems [14][15][16][17].…”
Section: Introductionmentioning
confidence: 99%