Ionospheric propagation

M. J. Angling; P. S. Cannon; P. Bradley

doi:10.1049/PBEW056E_ch12

Ionospheric propagation

M. J. Angling, P. S. Cannon, P. Bradley

Electronic, Electrical and Systems Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

For ionospheric signals the SNR is determined by a number of factors. For HF signals, a critical consideration is whether the signal is actually reflected from the ionosphere. All trans-ionospheric signals also experience some excess attenuation over free space, but because this is frequency dependent, the effects at higher frequencies are generally negligible. Multipath arises from various sources. A transmitted HF signal can be reflected from more than one of the several layers in the ionosphere. The transmission of a single pulse of energy is consequently received as a number of pulses which may be distinct or which may overlap. This situation is further complicated because the signals can also bounce off the ionosphere more than once, having been reflected from the ground in between. The earth’s magnetic field also splits signals into two orthogonal polarisations which travel at a different speed and follow a slightly different path.

Original language	English
Title of host publication	Propagation of Radiowaves, 3rd Edition
Editors	Les Barclay
Publisher	Institution of Engineering and Technology (IET)
Chapter	12
Pages	199-233
Number of pages	35
ISBN (Electronic)	9781849195799
ISBN (Print)	9781849195782
DOIs	https://doi.org/10.1049/PBEW056E_ch12
Publication status	Published - Jan 2012

Publication series

Name	IET Electromagnetic Waves Series
Publisher	Institution of Engineering and Technology (IET)
Volume	56

Keywords

Earth magnetic field
Electromagnetic wave polarisation
Electromagnetic wave reflection
Hf band interference
Hf radio propagation
Hf signal reflection
Ionospheric electromagnetic wave propagation
Ionospheric signal propagation
Magnetic fields
Multipath propagation
Orthogonal polarisation
Signal attenuation
Signal classification
Trans-ionospheric signal

ASJC Scopus subject areas

General Engineering

Access to Document

10.1049/PBEW056E_ch12

Cite this

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title = "Ionospheric propagation",

abstract = "For ionospheric signals the SNR is determined by a number of factors. For HF signals, a critical consideration is whether the signal is actually reflected from the ionosphere. All trans-ionospheric signals also experience some excess attenuation over free space, but because this is frequency dependent, the effects at higher frequencies are generally negligible. Multipath arises from various sources. A transmitted HF signal can be reflected from more than one of the several layers in the ionosphere. The transmission of a single pulse of energy is consequently received as a number of pulses which may be distinct or which may overlap. This situation is further complicated because the signals can also bounce off the ionosphere more than once, having been reflected from the ground in between. The earth{\textquoteright}s magnetic field also splits signals into two orthogonal polarisations which travel at a different speed and follow a slightly different path.",

keywords = "Earth magnetic field, Electromagnetic wave polarisation, Electromagnetic wave reflection, Hf band interference, Hf radio propagation, Hf signal reflection, Ionospheric electromagnetic wave propagation, Ionospheric signal propagation, Magnetic fields, Multipath propagation, Orthogonal polarisation, Signal attenuation, Signal classification, Trans-ionospheric signal",

author = "Angling, {M. J.} and Cannon, {P. S.} and P. Bradley",

year = "2012",

month = jan,

doi = "10.1049/PBEW056E_ch12",

language = "English",

isbn = "9781849195782",

series = "IET Electromagnetic Waves Series",

publisher = "Institution of Engineering and Technology (IET)",

pages = "199--233",

editor = "Les Barclay",

booktitle = "Propagation of Radiowaves, 3rd Edition",

}

TY - CHAP

T1 - Ionospheric propagation

AU - Angling, M. J.

AU - Cannon, P. S.

AU - Bradley, P.

PY - 2012/1

Y1 - 2012/1

N2 - For ionospheric signals the SNR is determined by a number of factors. For HF signals, a critical consideration is whether the signal is actually reflected from the ionosphere. All trans-ionospheric signals also experience some excess attenuation over free space, but because this is frequency dependent, the effects at higher frequencies are generally negligible. Multipath arises from various sources. A transmitted HF signal can be reflected from more than one of the several layers in the ionosphere. The transmission of a single pulse of energy is consequently received as a number of pulses which may be distinct or which may overlap. This situation is further complicated because the signals can also bounce off the ionosphere more than once, having been reflected from the ground in between. The earth’s magnetic field also splits signals into two orthogonal polarisations which travel at a different speed and follow a slightly different path.

AB - For ionospheric signals the SNR is determined by a number of factors. For HF signals, a critical consideration is whether the signal is actually reflected from the ionosphere. All trans-ionospheric signals also experience some excess attenuation over free space, but because this is frequency dependent, the effects at higher frequencies are generally negligible. Multipath arises from various sources. A transmitted HF signal can be reflected from more than one of the several layers in the ionosphere. The transmission of a single pulse of energy is consequently received as a number of pulses which may be distinct or which may overlap. This situation is further complicated because the signals can also bounce off the ionosphere more than once, having been reflected from the ground in between. The earth’s magnetic field also splits signals into two orthogonal polarisations which travel at a different speed and follow a slightly different path.

KW - Earth magnetic field

KW - Electromagnetic wave polarisation

KW - Electromagnetic wave reflection

KW - Hf band interference

KW - Hf radio propagation

KW - Hf signal reflection

KW - Ionospheric electromagnetic wave propagation

KW - Ionospheric signal propagation

KW - Magnetic fields

KW - Multipath propagation

KW - Orthogonal polarisation

KW - Signal attenuation

KW - Signal classification

KW - Trans-ionospheric signal

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U2 - 10.1049/PBEW056E_ch12

DO - 10.1049/PBEW056E_ch12

M3 - Chapter

AN - SCOPUS:85014152968

SN - 9781849195782

T3 - IET Electromagnetic Waves Series

SP - 199

EP - 233

BT - Propagation of Radiowaves, 3rd Edition

A2 - Barclay, Les

PB - Institution of Engineering and Technology (IET)

ER -

Ionospheric propagation

Abstract

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Keywords

ASJC Scopus subject areas

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