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Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels

Sensor networks have become more popular in recent years, now featuring plenty of options and capabilities. Notwithstanding this, remote locations present many difficulties for their study and monitoring. High-frequency (HF) communications are presented as an alternative to satellite communications,...

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Detalles Bibliográficos
Autores principales: Male, Jordi, Porte, Joaquim, Gonzalez, Tomas, Maso, Josep M., Pijoan, Joan L., Badia, David
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8004164/
https://www.ncbi.nlm.nih.gov/pubmed/33809848
http://dx.doi.org/10.3390/s21062210
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author Male, Jordi
Porte, Joaquim
Gonzalez, Tomas
Maso, Josep M.
Pijoan, Joan L.
Badia, David
author_facet Male, Jordi
Porte, Joaquim
Gonzalez, Tomas
Maso, Josep M.
Pijoan, Joan L.
Badia, David
author_sort Male, Jordi
collection PubMed
description Sensor networks have become more popular in recent years, now featuring plenty of options and capabilities. Notwithstanding this, remote locations present many difficulties for their study and monitoring. High-frequency (HF) communications are presented as an alternative to satellite communications, being a low-cost and easy-to-deploy solution. Near vertical incidence skywave (NVIS) technology provides a coverage of approximately 250 km (depending on the frequency being used and the ionospheric conditions) without a line of sight using the ionosphere as a communication channel. This paper centers on the study of the ionosphere and its characteristic waves as two independent channels in order to improve any NVIS link, increasing its robustness or decreasing the size of the node antennas through the appliance of specific techniques. We studied the channel sounding of both the ordinary and extraordinary waves and their respective channels, analyzing parameters such as the delay spread and the channel’s availability for each wave. The frequency instability of the hardware used was also measured. Furthermore, the correlation coefficient of the impulse response between both signals was studied. Finally, we applied polarization diversity and two different combining techniques. These measurements were performed on a single frequency link, tuned to 5.4 MHz. An improvement on the mean bit energy-to-noise power spectral density (E(b)/N(0)) was received and the bit error rate (BER) was achieved. The results obtained showed that the extraordinary mode had a higher availability throughout the day (15% more availability), but a delayed spread (approximately 0.3 ms mean value), similar to those of the ordinary wave. Furthermore, an improvement of up to 4 dB was achieved with the usage of polarization diversity, thus reducing transmission errors.
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spelling pubmed-80041642021-03-28 Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels Male, Jordi Porte, Joaquim Gonzalez, Tomas Maso, Josep M. Pijoan, Joan L. Badia, David Sensors (Basel) Article Sensor networks have become more popular in recent years, now featuring plenty of options and capabilities. Notwithstanding this, remote locations present many difficulties for their study and monitoring. High-frequency (HF) communications are presented as an alternative to satellite communications, being a low-cost and easy-to-deploy solution. Near vertical incidence skywave (NVIS) technology provides a coverage of approximately 250 km (depending on the frequency being used and the ionospheric conditions) without a line of sight using the ionosphere as a communication channel. This paper centers on the study of the ionosphere and its characteristic waves as two independent channels in order to improve any NVIS link, increasing its robustness or decreasing the size of the node antennas through the appliance of specific techniques. We studied the channel sounding of both the ordinary and extraordinary waves and their respective channels, analyzing parameters such as the delay spread and the channel’s availability for each wave. The frequency instability of the hardware used was also measured. Furthermore, the correlation coefficient of the impulse response between both signals was studied. Finally, we applied polarization diversity and two different combining techniques. These measurements were performed on a single frequency link, tuned to 5.4 MHz. An improvement on the mean bit energy-to-noise power spectral density (E(b)/N(0)) was received and the bit error rate (BER) was achieved. The results obtained showed that the extraordinary mode had a higher availability throughout the day (15% more availability), but a delayed spread (approximately 0.3 ms mean value), similar to those of the ordinary wave. Furthermore, an improvement of up to 4 dB was achieved with the usage of polarization diversity, thus reducing transmission errors. MDPI 2021-03-22 /pmc/articles/PMC8004164/ /pubmed/33809848 http://dx.doi.org/10.3390/s21062210 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Male, Jordi
Porte, Joaquim
Gonzalez, Tomas
Maso, Josep M.
Pijoan, Joan L.
Badia, David
Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title_full Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title_fullStr Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title_full_unstemmed Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title_short Analysis of the Ordinary and Extraordinary Ionospheric Modes for NVIS Digital Communications Channels
title_sort analysis of the ordinary and extraordinary ionospheric modes for nvis digital communications channels
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8004164/
https://www.ncbi.nlm.nih.gov/pubmed/33809848
http://dx.doi.org/10.3390/s21062210
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