Contribution to the channel path loss and time-dispersion characterization in an office environment at 26 GHz

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URI: http://hdl.handle.net/10317/9340
ISSN: 2079-9292
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Author
Rubio Arjona, Lorenzo; Torres Jiménez, Rafael Pedro; Rodrigo Peñarrocha, Vicent Miquel; Pérez López, Jesús Ramón; Fernández González, Herman; [et al.]
Knowledge Area
Arquitectura y Tecnología de ComputadorasIngeniería EléctricaLenguajes y Sistemas Informáticos
Sponsors
This work was funded in part by the Spanish Ministerio de Economía, Industria y Competitividad under the research projects TEC2016-78028-C3-2-P, TEC2017-86779C1-2-R, and TEC2017-86779-C2-2-R, and by COLCIENCIAS in Colombia.
Realizado en/con
Universidad Politécnica de Cartagena; Universidad de Cantabria; Universidad Pedagógica y Tecnológica de Colombia; Universitat Politécnica de Valencia
Publication date
2019-11-01
Publisher
MDPI
Bibliographic Citation
Rubio L, Torres RP, Rodrigo Peñarrocha VM, Pérez JR, Fernández H, Molina-Garcia-Pardo J-M, Reig J. Contribution to the Channel Path Loss and Time-Dispersion Characterization in an Office Environment at 26 GHz. Electronics. 2019; 8(11):1261. https://doi.org/10.3390/electronics8111261
Peer review
Si
Keywords
5G
MmWave
Path loss
Time-dispersion
Delay-spread
Coherence bandwidth
Channel measurements
Abstract
In this paper, path loss and time-dispersion results of the propagation channel in a typical office environment are reported. The results were derived from a channel measurement campaign carried out at 26 GHz in line-of-sight (LOS) and obstructed-LOS (OLOS) conditions. The parameters of both the floating-intercept (FI) and close-in (CI) free space reference distance path loss models were derived using the minimum-mean-squared-error (MMSE). The time-dispersion characteristics of the propagation channel were analyzed through the root-mean-squared (rms) delay-spread and the coherence bandwidth. The results reported here provide better knowledge of the propagation channel features and can be also used to design and evaluate the performance of the next fifth-generation (5G) networks in indoor office environments at the potential 26 GHz frequency band.
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