Kateryna Nesterenko scite author profile

Kateryna Nesterenko

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National Aviation University

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Review of Mathematical Support and Software for Design of SHF Devices

Nimych

Klobukova²,

Nesterenko³

et al. 2022

SBT

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Currently, machine design methods are widely used in the development of super high frequency devices (SHF), which are based on existing knowledge bases and databases. The development of computer technology has allowed based on computers to design various complex distributed systems, which by classical analytical methods are impossible to implement. Known results on the study of various SHF devices and their element base are presented in the Наукоємні технології № 3(55), 2022 © Nimych О., Klobukova L., Nesterenko K., Yakoviv I., 2022 177 form of databases of various subject areas. Growth in the rate of information transfer has led to the need to develop new approaches to the development of mathematical support (MS) and software. At the same time, the main problem is the lack of universal MS and software, which allows to solve a wide class of problems of designing various SHF devices relatively easily. The choice of suitable software is quite a complex problem and depends on the experience and qualifications of the developers. As a rule, when selecting software, developers turn to various highly specialized experts, who quite often are also unable to give reasoned advice. Therefore, the selection of the required class of software for SHF device design from the large variety of existing packages is an important task. Analysis of recent publications has shown that the design of SHF devices currently uses hundreds of different ASPs, developed based on different approaches to the development of models and methods of their analysis. This circumstance does not allow us to choose the appropriate ASP relatively quickly. In addition, when solving the design problems by different methods, often the results differ from each other. That is, the result depends on the used ASP. Thus, to get the best result sometimes it is required to solve the same problem by different methods. And after that the choice of the best result is made. Such a procedure requires high economic costs and does not guarantee the best results. The purpose of the article is to acquaint SHF device designers with the mathematical and computer-aided design software most suitable for the development of distributed systems. The article provides an analytical review of modern mathematical support and software for computer-aided design of SHF systems in 1D, 2D, 3D modeling formats.

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Pequliarities of Reforming the Notary Bodies in Ukraine

Nesterenko¹,

Булгакова²

2020

Law Journal of Donbass

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Tuning Methodology for Multi-circuit Digital Regulators of Robot Drives with Adjustable Dynamic Characteristics

Tachinina

Lysenko

Nesterenko

et al. 2022

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Оцінювання Ефективності Біоінспірованого Методу Декодування Кодів З Малою Щільністю Перевірок На Парність

Штомпель¹,

Nesterenko²,

Міщенко³

2022

soivt

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У роботі проведено оцінювання ефективності біоінспірованого методу декодування кодів з малою щільністю перевірок на парність у каналі зв’язку з адитивним білим гауссовим шумом. Наведено основні етапи біоінспірованого декодування даних кодів у загальному випадку. Розроблено алгоритм біоінспірованого декодування кодів з малою щільністю перевірок на парність на основі процедури кажанів та розглянуто особливості його реалізації. Проведено експериментальне дослідження щодо ефективності застосування цієї процедури пошукової оптимізації при біоінспірованому декодуванні даних кодів. Показано, що для коду з малою щільністю перевірок на парність з обраними параметрами біоінспіроване декодування дозволяє отримати значний енергетичний виграш від кодування у каналі зв’язку з адитивним білим гауссовим шумом. Представлений метод декодування кодів з малою щільністю перевірок на парність доцільно використовувати для удосконалення систем зв’язку загального та спеціального призначення.

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