Anastasia Alekseevna Vaganova 

Assistant Professor

Institute of Radioengineering Systems and Control

E-mail:

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Personal page in Russian:

https://sfedu.ru/person/vaganova

Personal page in English:

https://sfedu.ru/en/person/vaganova

Research interests:

Radio wave propagation, applied electrodynamics, WLAN, microwave CAD, circuit design CAD

Scientific conferences:

• Radiation and Scattering of Electromagnetic Waves (RSEMW) - 2021, 2019, 2017
• Moscow Workshop on Electronic and Networking Technologies (MWENT)" - 2020, 2018
• East-West Design & Test Symposium (EWDTS) - 2018, 2017
• Международная мультидисциплинарная конференция по промышленному инжинирингу и современным технологиям FarEastCon - 2020
• Ural Symposium on Biomedical Engineering, Radioelectronics and Information Technology (USBEREIT). Yekaterinburg, Russia, 14-15 May 2020
• Международная крымская конференция “СВЧ-техника и телекоммуникационные технологии" (CriMiCo) ; 2018, 2016, 2015
• Всероссийская научно-техническая конференция с международным участием "Компьютерные и информационные технологии в науке, инженерии и управлении" (КомТех) ; 2021, 2020, 2018, 2017, 2016
• International Siberian Conference on Control and Communications (SIBCON). - 2017, 2016

Main publications

Educational-methodical:
Кисель Н.Н., Ваганова А.А. Основы компьютерного моделирования в САПР EMPro (учебное пособие). Ростов-на-Дону, Таганрог: Издательство Южного федерального университета, 2018. ; 342 c. ; ISBN 978-5-9275-3037-3. 

Scientific:

1. Vaganova A.A., Kisel N.N., Panychev A.I. Microstrip reconfigurable antenna with tunable frequency and polarization. 2021 Radiation and Scattering of Electromagnetic Waves RSEMW, June 28 - July 2, 2021, Divnomorskoe, Russia.
2. Ваганова А.А., Кисель Н.Н., Панычев А.И.. Направленные и поляризационные свойства микрополосковой реконфигурируемой антенны, перстраиваемой по частоте и поляризации. Известия ЮФУ. Технические науки, N 2, 2021. С. 74 ; 83.
3. N.N. Kisel, A.A. Vaganova, I.A. Vaganov. Study of the Shape of a Microwave Chamber for Heating a Dielectric Object. IOP Conference Series: Earth and Environmental Science, 2021, 666(4), 042047.
4. N.N. Kisel, A.A. Vaganova, A.N. Savitskiy. Simulation Modeling of the Distribution of Microwave Field Strength in the Grain Layer. IOP Conference Series: Earth and Environmental Science, 2021, 666(5), 052037.
5. Natalia N. Kisel, Anastasia A. Vaganova, Ivan A. Vaganov. The Study of Electromagnetic Field Distribution inside Biological Objects. Proceedings of 2020 Ural Symposium on Biomedical Engineering, Radioelectronics and Information Technology (USBEREIT). Yekaterinburg, Russia, 14-15 May 2020.
6. Vaganova A.A., Kisel N.N., Panychev A.I. Statistical account of the obstacle position in a MIMO system channel matrix indoors. Proceedings of IEEE “Moscow Workshop on Electronic and Networking Technologies (MWENT)". Moscow, Russia, March 11 ; 13, 2020.
7. Кисель Н.Н., Ваганова А.А., Ваганов И.А. Имитационное моделирование нагрева молока энергией СВЧ поля. "Известия ЮФУ. Технические науки", N 3 (213), 2020. - с. 68-78.
8. Кисель Н.Н., Ваганова А.А., Савицкий А.Н.  Имитационное моделирование нагрева зерна энергией электромагнитного СВЧ поля. "Известия ЮФУ. Технические науки", N 3 (213), 2020. - с. 78-88.
9. Vaganova A.A., Kisel N.N., Panychev A.I. Simulation model of 5G coverage in urban areas. 2019 Radiation and Scattering of Electromagnetic Waves (RSEMW),  24-28 June 2019,  Divnomorskoe, Russia.
10. Ваганова А.А., Кисель Н.Н., Панычев А.И. Детерминированно-статистический подход к оценке канальной матрицы системы MIMO. Известия ЮФУ. Технические науки, N 3 (197), 2018. С. 124 ; 135.
11. Vaganova A.A., Panychev A.I., Kisel N.N. The deterministic - statistical model of a MIMO system signal propagation indoors. Proceedings of IEEE East-West Design & Test Symposium (EWDTS2018). Kazan, Russia, September 14 ; 17, 2018. pp. 378-383.
12. Panychev A.I., Vaganova A.A. Efficient three-dimensional ray tracing and electromagnetic field intensity estimation algorithm for WLAN. East-West Design & Test Symposium (EWDTS - 2017), 29 Sept.-2 Oct. 2017, Novi Sad, Serbia.
13. Panychev A.I., Vaganova A.A. Statistical evaluation of the influence of irregularities of reflecting surfaces at the planning of WLAN indoors. 2017 International Siberian Conference on Control and Communications (SIBCON). Proceedings. - Astana: S. Seifullin Kazakh Agrotechnical University. Kazakhstan, Astana, June 29;30, 2017. IEEE Catalog Number: CFP17794-CDR.
14. Panychev A.I., Vaganova A.A. Approximate calculation of the diffraction coefficients in the analysis of WLAN coverage area. Radiation and Scattering of Electromagnetic Waves (RSEMW-2017). 2017, June 26-30, Divnomorskoye, Russia, pp. 238 ; 241.
15. Панычев А.И., Ваганова А.А. Приближенный учет дифракции радиоволн в задачах расчета зоны покрытия беспроводной сети. Известия ЮФУ. Технические науки. N 5 (190), 2017. с. 135 ; 148.
16. Панычев А.И., Ваганова А.А. Оценка объемного распределения интенсивности проникающих в помещение сигналов WLAN. 26-я Международная Крымская конференция "СВЧ-техника и телекоммуникационные технологии" (КрыМиКо2016). Севастополь, 4;10 сентября 2016 г. : материалы конф. в 13 т. ; Москва; Минск; Севастополь, 2016. ;Т. 3. С. 437-443.
17. Панычев А.И., Ваганова А.А. Анализ многолучевой структуры электромагнитного поля в помещении с группой препятствий. Известия ЮФУ. Технические науки. Тематический выпуск: Компьютерные и информационные технологии в науке, инженерии и управлении. 2016, N 3 (176), с. 53 ; 65.
18. Panychev A.I., Vaganova A.A. Modeling of Ray Refraction of WLAN Signals on the Structural Elements of the Building. 2016 International Siberian Conference on Control and Communications (SIBCON). Proceedings.; Moscow: National Research University "Higher School of Economics". Russia, Moscow, May 12−14, 2016. IEEE Catalog Number: CFP16794-CDR. C. 7491718.

CV

Born 02/09/1993 in the city of Taganrog, Rostov region. In 2015 graduated from the Institute of Radio Engineering Systems and Control of the Southern Federal University with a bachelor degree in Infocommunication technologies and communication systems. In 2017 got master degree in Radio engineering. In 2021 graduated from the postgraduate school in Electronics, radio engineering and communication systems. Since 2020, has been working at the Institute of Radio Engineering Systems and Control at the Department of Radio Engineering and Telecommunication Systems as an assistant.

place of work:

• 02.12.2019 - 09.07.2021 - Southern Federal University, scientific and design bureau "MIUS", junior researcher

• from 01.09.2020 until now - Southern Federal University, Institute of Radio Engineering Systems and Control, Department of Radio Engineering and Telecommunication Systems, assistant

Job responsibilities: curator of groups RTso1-41, RTso1-51

Research projects:

“Creation of high-tech production of hardware and software systems for processing agricultural raw materials based on microwave radiation” (Agreement with the Ministry of Education and Science of the Russian Federation N 075-11-2019-083 of 20.12.2019, SFU Agreement N 18 of 20.09.2019, number of work in SFU N XD/19-25-RT)

Teaching:

• Fundamentals of programming in specialized REM design tools (laboratory work)
  The aim of the discipline is to study the basic principles of programming in specialized software packages for designing radio electronic means and study the principles of creating mathematical and simulation models of radio electronic means.
• Electronic components (laboratory work)
  The aim of the discipline is to study the properties and physical principles of operation of electronic components, their main types, characteristics, parameters, equivalent circuits; study the methods of analysis of electrical circuits using modern circuit design CAD.
• Circuitry of electronic devices and impulse devices (laboratory work)
  The aim of the discipline is to familiarize students with the basics of circuitry of radio-electronic and pulse devices and study the methods of their analysis using modern circuit design CAD.
• Radio transmission systems (laboratory work)
  The aim of the discipline is acquaintance with modern broadband radio systems for transmitting information, mastering techniques and methods of analysis, classification and synthesis of signals, analysis of transmission channels, reception, processing of information.
• Applied informatics (laboratory work)
  The aim of the discipline is to familiarize students with the basic concepts and areas of practical use of computer science. The course includes the following sections: 1) types of information and information processes 2) number systems and general coding principles 3) database models, DBMS 4) automated decision support systems and intelligent systems.
• Basics of building telecommunication systems and networks (laboratory work)
  The aim of the discipline is to outline the basic principles of building public telecommunication networks and local networks, to study the main characteristics of various communication signals and the peculiarities of their transmission over channels and paths; study of the principles and features of the construction of analog and digital transmission and switching systems.
• Digital signal processing and signal processors (laboratory work)
  The aim of the discipline is to study the characteristics and methods of constructing microprocessor complexes and devices, methods of synthesis and development of digital signal processing devices using modern computers for radio engineering systems simulation.