Artemy O. Podkopayev scite author profile

В работе решается задача определения параметров четырехточечной частично когерентной геометрической модели радиолокационного объекта по известной его пятиточечной некогерентной модели. Полученные аналитические соотношения определяют спектрально-корреляционные характеристики сигналов, подводимых к излучателям четырехточечной частично когерентной модели матричного имитатора, излучающих коррелированные нормальные случайные процессы. Соотношения получены на основе свойства эквивалентности четырехточечной модели, излучающей коррелированные сигналы, и пятиточечной модели, излучающей некоррелированные сигналы. При этом рассмотрены проекции исходной пятиточечной некогерентной модели на две взаимно ортогональные оси координат. На их основе получены проекции на эти же оси четырехточечной частично когерентной модели. Определены выражения, связывающие полученные проекции и искомую четырехточечную частично когерентную модель. Описаны условия, выполнение которых необходимо для синтеза адекватной пятиточечной некогерентной геометрической модели распределенного радиолокационного объекта. На их основе сформулированы ограничения, в пределах которых возможен переход от некогерентных пятиточечных моделей к частично когерентным четырехточечным. Полученные теоретические результаты подтверждены программным моделированием.Ключевые слова: имитация, матричный имитатор, некогерентная модель, частично когерентная модель Для цитирования: Подкопаев А. О., Степанов М. А., Тырыкин С. В. Определение параметров четырехточечной частично когерентной модели радиолокационного объекта на основе ее эквивалентности пятиточечной некогерентной модели // Радиопромышленность. The problem of determining the parameters of a four-point partially coherent model of radar object based on its equivalence to a five-point non-coherent model was solved. The obtained analytical relations describe the spectral and correlation characteristics of signals delivered to the emitters of the four-point partially coherent model of the matrix simulator emitting statistically dependent normal random processes. Correlations are defined based on the equivalence of a four-point model emitting correlated signals and five-point model emitting uncorrelated signals. Moreover, the projections of an original fivepoint non-coherent model onto two mutually orthogonal coordinate axes are reviewed. Based on that, the projections onto the same axes of a four-point partially coherent model are derived. Expressions relating to the derived projections and required four-point partially coherent model are obtained. Conditions that are necessary for the synthesis of an adequate five-point non-coherent distributed radar target geometric model are described. Based on them, the limitations within which a transition from non-coherent five-point models to partially coherent four-point models is possible are formulated. The obtained theoretical results are confirmed by software modeling. For citation: Podkopayev A. O., Stepanov M. A., Tyrykin S. V. Determination of the parameters of a four-point partiall...

show abstract

The five-point non-coherent model of a distributed radar object providing the independent control of angle noise probability characteristics along two orthogonal coordinate axes

Podkopayev

Stepanov

2021

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

The two-dimensional five-point non-coherent model replacing a distributed radar target is explored in this work. Four fixed model points are set in corners of the square but the fifth movable point lies inside of this square. Model points are supplied by normal uncorrelated random processes. The possibilities of the five-point non-coherent model of a distributed radar object for independent control of the producing angle noise parameters along two orthogonal coordinate axes are explored. The disadvantage of this model is noted - the connection of parameters values of angle noise probability density function for two coordinate axes. The expression describing this connection is specified. Expressions determining the boundaries of the allowable coordinate values of the fifth movable point of the five-point non-coherent model, within which the model provides the set parameters of the angle noise probability density function, are defined. The arrived results are validated by program simulations.

show abstract

The Application of the Method of the Square Four-Point Partially Coherent Model of the Volume Distributed Object Synthesis Based on its Multipoint Model

Podkopayev

Stepanov

2021

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.