Synthesis of a four-point model of an airplane

Stepanov, M. A.

doi:10.31857/S0033849424030045

PII

10.31857/S0033849424030045-1

DOI

10.31857/S0033849424030045

Publication type

Article

Status

Published

Authors

M. A. Stepanov

Affiliation: Novosibirsk State Technical University

Volume/ Edition

Volume 69 / Issue number 3

Pages

233-242

Abstract

The modeling of echo signals from distributed radar objects taking into account the noise of their angular coordinates is considered. Relationships are presented that allow the transition from a multipoint model of an arbitrary object containing tens, hundreds and even thousands of emitting points to a model composed of four emitting points located at the vertices of a square. As an example, we synthesized an airplane model containing only four points. It is obtained on the basis of a multipoint model composed of 56 points. Using numerical modeling methods, it has been shown that angular noise generated by multi-point and four-point aircraft models have identical correlation functions and similar parameters of the probability density distribution of angular coordinate noise. The obtained result is also confirmed by semi-natural modeling methods using a matrix simulator.

Keywords

моделирование эхо-сигналов многоточечная модель плотность распределения вероятности кажущийся центр излучения корреляционные функции матричный имитатор

Date of publication

14.03.2024

Year of publication

2024

Number of purchasers

Views

References

1. Melvin W.L., Scheer J.A. Principles of Modern Radar: Radar Applications. Edison: Scitech Publ., 2014.
2. Johnston S.L. // IEEE Trans. 1997. V. AES-33. № 2. Pt.2. P. 696.
3. Stepanov M.A., Kiselev A.V. // J. Computer Systems Sci. Int. 2019. V. 58. № 4. P. 595.
4. Zhou Jianxiong, Shi Zhiguang, Cheng Xiao, Fu Qiang // IEEE Trans. 2011. V. GRS-49. № 10. P. 3713.
5. Островитянов Р.В., Басалов Ф.А. Статистическая теория радиолокации протяженных целей. М.: Радио и связь, 1982.
6. Yu Yiwei, Song Jie, Xiong Wei // 2nd IEEE Intern. Conf. Inform. Communication and Signal Processing. 2019. P. 161.
7. Podkopaev A.O., Stepanov M.A., Kiselev A.V. // Radio Sci. V. 56. № 12. P. 6.
8. Бердышев В.П., Миронов А.М., Помазуев О.Н. и др. // Журн. Сибирского федерального университета. Сер. Техника и технологии. 2018. Т. 11. № 7. С. 764.
9. Панов Д.В., Юдин В.А., Караваев С.А. // Математическая морфология. Электронный математ. и медико-биол. журн. 2009. V. 8. № 3. С. 1–7.
10. Wang C.-Q, Wang X.-M., Shi X.-L. // Binggong Xuebao/Acta Armamentarii. 2008. V. 29(12). P. 1479.
11. Тырыкин С.В., Киселев А.В. // Изв. вузов. Радиоэлектроника. 2003. V. 4. P. 76.
12. Hseuh-Jyh Li, Nabil H. Farhat, Yuhsyen Shen // IEEE Trans. 1989. V. GRS-27. № 1. P. 98.
13. Борзов А.Б., Быстров Р.П., Соколов А.В. // Журн. радиоэлектроники. 1998. № 1. С. 1.http://jre.cplire.ru/jre/dec98/4/text.html
14. Корн Г., Корн Т. Справочник по математике. 4-е изд. М.: Наука, 1978.

GOST	Stepanov M. Synthesis of a four-point model of an airplane // Journal of Communications Technology and Electronics. – 2024. – V. 69. – Issue number 3 C. 233-242 . URL: https://radiotechras.ru/10-31857-s0033849424030045-1/?version_id=111041. DOI: 10.31857/S0033849424030045
MLA	Stepanov, M. A "Synthesis of a four-point model of an airplane." Journal of Communications Technology and Electronics. 69.3 (2024).:233-242. DOI: 10.31857/S0033849424030045
APA	Stepanov M. (2024). Synthesis of a four-point model of an airplane. Journal of Communications Technology and Electronics. vol. 69, no. 3, pp.233-242 DOI: 10.31857/S0033849424030045

RAS PhysicsРадиотехника и электроника Journal of Communications Technology and Electronics

Synthesis of a four-point model of an airplane

You can

References

Индексирование

RAS PhysicsРадиотехника и электроника Journal of Communications Technology and Electronics

Synthesis of a four-point model of an airplane

You can

References

Индексирование

Via social network