Hongzhi Chen scite author profile

Satellites will play an indispensable part in 5G roll out and the common use of new radio (NR) air interface will enable this. Satellite-terrestrial integration requires adaptations to the existing NR standards and demands further study on the potential areas of impact. From a physical layer perspective, the candidate waveform has a critical role in addressing design constraints to support non-terrestrial networks (NTN). In this paper, the adaptability of frequency-localized orthogonal frequency division multiplexing (OFDM)-based candidate waveforms and solutions are discussed in the context of physical layer attributes of non-linear satellite channel conditions. The performance of the new air interface waveforms are analysed in terms of spectral confinement, peak-to-average power ratio (PAPR), power amplifier efficiency, robustness against non-linear distortions and carrier frequency offset (CFO).

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Compressive Feedback-Based Motion Control for Nanomanipulation—Theory and Applications

Song

Zhao

et al. 2014

IEEE Trans. Robot.

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Large Scale Graph Mining with G-Miner

Chen

Wang

Huang

et al. 2019

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Determination of shear failure regions of rock joints based on point clouds and image segmentation

Xie

Tang

et al. 2019

Engineering Geology

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Hongzhi Chen

A comparison of five methods in landslide susceptibility assessment: a case study from the 330-kV transmission line in Gansu Region, China

Analysis of Candidate Waveforms for Integrated Satellite-Terrestrial 5G Systems

Compressive Feedback-Based Motion Control for Nanomanipulation—Theory and Applications

Large Scale Graph Mining with G-Miner

Determination of shear failure regions of rock joints based on point clouds and image segmentation

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