Problem of determining the total field of short-wave radio waves with a considerable separation between receiver and source

The paper covers questions related to the creation of the comprehensive device designed for long-term autonomous operations as part of the radio networks for various purposes in short-wave bands. Such radio networks are intended for remote monitoring and control over facilities at distances of hundreds and thousands of kilometres. The device and features of functioning of autonomous nodes in short-wave radio networks are based on daily and seasonal characteristics of distribution of radio waves, operation under conditions of self-provision with electricity and in areas of harsh climate, as well as on impossibility of their timely repair and maintenance. The authors have proposed solutions to the issue of a reliable communication channel using advanced low-energy types of angle modulation with low-value signal-to-noise ratios and the choice of the best frequency for a given time of the day for specific nodes. There is an overview of issues related to the choice of an antenna type for the autonomous radio network node, taking into account changes of working ranges. The issue of power supply to the radio network node is solved by applying the combination of a photovoltaic panel and wind generator working from a frost-resistant battery. Thermal modes for electronic equipment are provided through the use of a thermostatically controlled container. Authors have presented a possible architecture for the short-wave range radio network node. The study results include advice for developers of autonomous nodes of shortwave radio networks.

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Depolarization of short-wave radio waves in the ionosphere in the quasiisotropic approximation

Radiophysics and Quantum Electronics ◽

10.1007/bf01034071 ◽

1987 ◽

Vol 30 (1) ◽

pp. 29-33 ◽

Cited By ~ 1

Author(s):

V. G. Tokar' ◽

L. I. Rubinshtein ◽

M. A. Nikitin

Keyword(s):

Short Wave ◽

Radio Waves ◽

Wave Radio

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Propagation Characteristics and Channel Model of Short Wave Radio Waves at Sea

2018 3rd International Conference on Mechatronics and Information Technology (ICMIT 2018) ◽

10.23977/icmit.2018.011 ◽

2018 ◽

Keyword(s):

Channel Model ◽

Short Wave ◽

Radio Waves ◽

Propagation Characteristics ◽

Wave Radio

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A Frequency Support System Based on the Passive Sensing of a Multidimensional Short-Wave Radio Channel

Vestnik of Volga State University of Technology Ser Radio Engineering and Infocommunication Systems ◽

10.15350/2306-2819.2016.2.52 ◽

2016 ◽

Vol 30 (2) ◽

pp. 52-63 ◽

Cited By ~ 1

Author(s):

Ruslan Belgibaev ◽

Dmitry Ivanov ◽

Vladimir Ivanov ◽

Natalia Ryabova

Keyword(s):

Support System ◽

Radio Channel ◽

Short Wave ◽

Wave Radio ◽

Passive Sensing

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The field of a point source in a horizontally inhomogeneous short-wave radio channel with inaccurate parameters. Part I. General relationships

Journal of Communications Technology and Electronics ◽

10.1134/s1064226911110118 ◽

2011 ◽

Vol 56 (11) ◽

pp. 1329-1334

Author(s):

S. A. Kib ◽

N. N. Zernov

Keyword(s):

Point Source ◽

Radio Channel ◽

Short Wave ◽

Wave Radio ◽

Horizontally Inhomogeneous

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Atmospheric Effects on Short-Wave Radio Propagation

Nature ◽

10.1038/163958a0 ◽

1949 ◽

Vol 163 (4155) ◽

pp. 958-959

Author(s):

J. S. MCPETRIE ◽

B. J. STARKEY

Keyword(s):

Short Wave ◽

Radio Propagation ◽

Atmospheric Effects ◽

Wave Radio

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Artificial Fever Produced by the Short Wave Radio and Its Therapeutic Application

Annals of Internal Medicine ◽

10.7326/0003-4819-6-4-457 ◽

1932 ◽

Vol 6 (4) ◽

pp. 457 ◽

Cited By ~ 5

Author(s):

C. F. TENNEY

Keyword(s):

Short Wave ◽

Therapeutic Application ◽

Wave Radio

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46. The structure of the solar chromosphere from centimetre-wave radio observations

Symposium - International Astronomical Union ◽

10.1017/s0074180900049214 ◽

1957 ◽

Vol 4 ◽

pp. 263-268 ◽

Cited By ~ 2

Author(s):

J. P. Hagen

Keyword(s):

Wave Length ◽

Outer Part ◽

Wave Radiation ◽

Solar Chromosphere ◽

The Sun ◽

Radio Waves ◽

Visible Radiation ◽

Short Radio Wave ◽

Wave Radio ◽

Image Position

The atmosphere of the sun is transparent to visible radiation, is nearly transparent to millimetre and centimetre radio radiation, and becomes opaque to the metre and longer wave radiation. Information about the chromosphere can then be given by observing the radiation from the sun at short radio wave-lengths. In its outer part, the atmosphere of the sun is highly ionized. Absorption in any region is directly proportional to the square of the density and the wave-length squared and inversely to the temperature to the three-halves power This is the familiar equation for the absorption of radio waves in an ionized medium. By consequence of this, the longer wave radiation is absorbed in the outer layers of the sun's atmosphere and can escape only from these outer regions. The shorter wave-length radiation is absorbed very little in the outer part of the solar atmosphere where the density is quite low, and hence radiation from the chromosphere escapes as centimetre and millimetre radio waves. In fact, the principal radiation from the sun in the centimetre and millimetre region comes from the chromosphere.

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