NVIS HF signal propagation in ionosphere using calculus of variations

NVIS HF signal propagation in ionosphere using calculus of variations

Modeling Near Vertical Incidence Sounding (NVIS) High Frequency (HF) signal propagation in the ionosphere is important. Because, ionosondes which are special types of radars probing the ionosphere with certain HF frequencies (between 2 and 30 MHz), work mostly in NVIS mode (where elevation angle is...

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Main Authors: Umut Sezen, Feza Arikan, Orhan Arikan
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2019-01-01
Series:Geodesy and Geodynamics
Online Access:http://www.sciencedirect.com/science/article/pii/S1674984717302148
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spelling doaj-26e50e414f734b659cff457e9df0d3172021-02-02T07:47:34ZengKeAi Communications Co., Ltd.Geodesy and Geodynamics1674-98472019-01-011017276NVIS HF signal propagation in ionosphere using calculus of variationsUmut Sezen0Feza Arikan1Orhan Arikan2Department of Electrical and Electronics Engineering, Hacettepe University, Ankara, TurkeyDepartment of Electrical and Electronics Engineering, Hacettepe University, Ankara, Turkey; Corresponding author.Department of Electrical and Electronics Engineering, Bilkent University, Ankara, TurkeyModeling Near Vertical Incidence Sounding (NVIS) High Frequency (HF) signal propagation in the ionosphere is important. Because, ionosondes which are special types of radars probing the ionosphere with certain HF frequencies (between 2 and 30 MHz), work mostly in NVIS mode (where elevation angle is between 89 and 90°). In this work, we are going to propose a new method for NVIS wave propagation in the ionosphere by discretizing the NVIS wave propagation path into mediums in which the refractive index changes linearly, where we solve the ray propagation in each medium analytically using calculus of variations and use Snell's Law at medium changes. The main advantage of the proposed solution is the reduced computational complexity and time. This algorithm can be used to simulate and compare the behavior of vertical ionosondes together with other ray tracing algorithms. Keywords: Ionosphere, HF propagation, Calculus of variationshttp://www.sciencedirect.com/science/article/pii/S1674984717302148
collection DOAJ
language English
format Article
sources DOAJ
author Umut Sezen
Feza Arikan
Orhan Arikan
spellingShingle Umut Sezen
Feza Arikan
Orhan Arikan
NVIS HF signal propagation in ionosphere using calculus of variations
Geodesy and Geodynamics
author_facet Umut Sezen
Feza Arikan
Orhan Arikan
author_sort Umut Sezen
title NVIS HF signal propagation in ionosphere using calculus of variations
title_short NVIS HF signal propagation in ionosphere using calculus of variations
title_full NVIS HF signal propagation in ionosphere using calculus of variations
title_fullStr NVIS HF signal propagation in ionosphere using calculus of variations
title_full_unstemmed NVIS HF signal propagation in ionosphere using calculus of variations
title_sort nvis hf signal propagation in ionosphere using calculus of variations
publisher KeAi Communications Co., Ltd.
series Geodesy and Geodynamics
issn 1674-9847
publishDate 2019-01-01
description Modeling Near Vertical Incidence Sounding (NVIS) High Frequency (HF) signal propagation in the ionosphere is important. Because, ionosondes which are special types of radars probing the ionosphere with certain HF frequencies (between 2 and 30 MHz), work mostly in NVIS mode (where elevation angle is between 89 and 90°). In this work, we are going to propose a new method for NVIS wave propagation in the ionosphere by discretizing the NVIS wave propagation path into mediums in which the refractive index changes linearly, where we solve the ray propagation in each medium analytically using calculus of variations and use Snell's Law at medium changes. The main advantage of the proposed solution is the reduced computational complexity and time. This algorithm can be used to simulate and compare the behavior of vertical ionosondes together with other ray tracing algorithms. Keywords: Ionosphere, HF propagation, Calculus of variations
url http://www.sciencedirect.com/science/article/pii/S1674984717302148
work_keys_str_mv AT umutsezen nvishfsignalpropagationinionosphereusingcalculusofvariations
AT fezaarikan nvishfsignalpropagationinionosphereusingcalculusofvariations
AT orhanarikan nvishfsignalpropagationinionosphereusingcalculusofvariations
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