Infopaket

Statistical radiotechnics

ВБ 1.08

Вибіркова дисципліна для ОП

First

2021/2022

5 Semester

3

"Statistical radiotechnics " is a discipline necessary for the formation of the professional worldview of a specialist in Applied Physics. Methods of statistical radiotechnics are widely used in the teaching of other disciplines, which are studied in the following semesters of bachelor's and master's degree in Ap-plied Physics. As a result of studying the discipline "Statistical radiotechnics " the student will receive training sufficient for further study in the educational program of Ap-plied Physics, study of the necessary scientific literature, solving typical prob-lems that require the using of statistical methods.

Full-time form

Before the study of discipline the "Statistical radio engineering" it is necessary to pass an exams/tests from such disciplines: • Mathematical analysis, • Differential equations, • Theory of probability, • Bases of theory of circles

1. Theory of probability. 2. Fluctuations. Moments of higher orders. 3. Binomial distribution. 4. Distribution of Gausse. 5. Distribution of Puasson. 6. Ergodic systems. 7. Correlation of the second order. 8. Information after Hartly, 9. Information is afterShennon. 10. Marcov processes. 11. Diffusive casual processes. 12. Impulsive casual processes. 13. Thermoelectron emission. 14. Thermal noise. Formula of Nyquist. 15. Flikker effect. 16. Narrow-band Gausses noise. 17. Quantum noise. Quantum statistics. 18. Atmospheric noises. Waves of Shumann. 19. Inner noises are in semiconductive devices. 20. Theorem of Wiener - Khinchin. 21. Being of signals is on a background strong noise. 22. Correlometer. Multiplication of signals. 23. Integration of signals. 24. Passing of noises through a detector from RC- by a filter. 25. Comparison of electro-dipole and magneto-dipole antennas for the reception of radio signals.

1.А.О. Мінаков, О.Ф. Тирнов. Статистична радіофізика. Харків, 2003. – 526 с. 2.В.М. Васильєв, С.Я. Жук. Теорія ймовірностей в радіотехніці: підручник. Київ: Вид-во «Політехніка», 2022. – 368 с. 3.Сигнали і процеси в радіотехніці. Ч. 4. Статистична радіотехніка. Конспект лекцій / Укладачі А.С. Макаренко, С.Н. Литвинцев. — К. : НТУУ «КПІ», 2012. — 104 с. Додаткова: 4.В.П. Бабак, Б.Г. Марченко, М.Є. Фриз. Теорія ймовірностей, випадкові процеси та математична статистика. Підручник. К. Техніка, 2004. – 288 с. 5.О.Б. Жильцов, Г.О. Михалін. Теорія ймовірностей та математична статистика у прикладах і задачах: навч. посіб. для студ. вищ. навч. закл.— Київ. 2015. — 336 с. 6.Ф.Д. Любич, Ю.Г. Кулешов, О.С. Макаренко. Методичні вказівки до дисципліни "Радіотехнічні кола і сигнали"— Київ, КПІ, 1993. — 36 с.

Lectures, practical classes, individual independent work.

Semester assessment: The academic semester has three content modules. The first and second modules are rated up to 10 points, the third - up to 20 points. Work in the classroom is part of the relevant module, answers "at the board", homework is part of the relevant module. Written tests carried out after the completion of relevant topics. Instead of modular tests, individual tasks can be credited. Admission to the final exam: the condition for admission to the exam is that the student receives during the semester (total) not less than 24 points. Stu-dents who scored a lower number of points during the semester must write an additional test for the required minimum number of points in order to be ad-mitted to the exam. Final assessment (in the form of an exam): The exam ticket consists of 2 theo-retical questions and 2 tasks. Each question and each task is evaluated from 0 to 15 points.

Ukrainian