Empirical Modeling of Radiowave Angular Power Distributions in Different Propagation Environments at 60 GHz for 5G

Sánchez, Manuel García; Cid, E. Lemos; Alejos, Ana Vázquez

doi:10.3390/electronics7120365

Cited by 4 publications

(1 citation statement)

References 34 publications

(56 reference statements)

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“…The literature includes a series of wideband models for 5G radio channels that take delay dispersion into account. Such models can be classified [19] as deterministic, map-based (like METIS [20,21]) and stochastic. These can be further classified as geometry-based stochastic models, like COST2100 [22], WINNER+ [23] and 3GPP [24], or non-geometry-based stochastic models, such as the Saleh-Valenzuela model [25].…”

Section: Introductionmentioning

confidence: 99%

Radio Channel Scattering in a 28 GHz Small Cell at a Bus Stop: Characterization and Modelling

2020

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The 28 GHz band is one of the available bands in Frequency Range 2 (FR2), above 6 GHz, for fifth generation (5G) communications. The propagation characteristics at this frequency band, together with the bandwidth requirements of 5G communications, make it suitable for ultra-dense smart cell networks. In this paper, we investigate the performance of a radio channel in the presence of moving, scattering sources for a small cell at 28 GHz, located at a bus stop. To do so, measurements of the channel complex impulse response with a sweep time delay cross-correlation sounder were made and then used to examine the distribution of multipath components. Besides analyzing the delay spread caused by the channel, we also evaluate the impact on the Doppler spectrum (DS) caused by the vehicles passing near the bus stop. We show that delay components are grouped in clusters exhibiting exponential decay power. We also show that the DS varies with time as vehicles pass by, so the channel cannot be considered stationary. We propose an empirical DS model, where the model parameter should change with time to describe the non-stationary nature of the radio channel. We have also found that the DS with maximum spread is similar for channel contributions in different delay clusters.

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Section: Introductionmentioning

confidence: 99%

Radio Channel Scattering in a 28 GHz Small Cell at a Bus Stop: Characterization and Modelling

2020

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Vehicular Communications in the B5G Era

Azpilicueta

Vargas-Rosales

Alejos

et al. 2022

Signals and Communication Technology

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Optimizing Antenna Arrays for Spatial Multiplexing: Towards 6G Systems

2021

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In this paper we discuss the design of antenna arrays to be used for multiplexing applications. In particular, we introduce a suitable performance index to analyze the effect of the antenna geometry and the distribution of users for the overall performance of Multi-User Multiple Input Multiple Output systems. By means of such performance index, antenna arrays can be designed so as to increase the number of multiplexed parallel sub-channels . Numerical results show that a proper design could allow to double the contemporary served users and the overall system throughput.

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Empirical Modeling of Radiowave Angular Power Distributions in Different Propagation Environments at 60 GHz for 5G

Cited by 4 publications

References 34 publications

Radio Channel Scattering in a 28 GHz Small Cell at a Bus Stop: Characterization and Modelling

Radio Channel Scattering in a 28 GHz Small Cell at a Bus Stop: Characterization and Modelling

Vehicular Communications in the B5G Era

Optimizing Antenna Arrays for Spatial Multiplexing: Towards 6G Systems

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