Statistical radiotechnics

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.04.E.125
Credits: 4.00
Department: Radioelectronic Appliances and Systems
Lecturer: senior lecturer Kuzyk Andrii
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Following the completion of the module the student should: - know the classification of random processes; basic models of random processes; filtering criteria, identification and assessment of parameters of signals in terms of different types of disturbances; - be able to determine probability and spectral characteristics of random processes; simulate typical random processes; model transformation processes of random processes linear and nonlinear systems; - possess skills: analysis of random processes; synthesis of structures of radio devices for detection, differentiation, signal filtering.
Required prior and related subjects: Prerequisites: Basic theory of probability and random processes. Basic theory of circles. Theory signals. Radiomeasurement and metrology.. Co-requisites: Basic theory of radio systems (Part 1). Methods of receiving and processing signals of radio systems. Basic theory of transmitting information.
Summary of the subject: Basic of random processes theory. Transformation of random processes linear dynamic systems. Estimation of signal parameters. Detection and differentiation signals. The allocation of signal from background noise.
Assessment methods and criteria: • Current control (35%): written reports from workshops, oral examination; • Calculation and graphic work (30%) • Final control (35% test): test.
Recommended books: 1. Statistical radio engineering: Synopsis of lectures for the electronic training manual. Lviv: Lviv Polytechnic Institute. 2021. – 195 p. [in Ukrainian] 2. A. Perov. Statistical theory of radio systems. Proc. manual for high schools - M.: Radio Engineering, 2003. – 403 p. [in Russian]. 3. Tikhonov V.I., Kharisov V.N. Statistical analysis and synthesis of radio engineering devices and systems: Proc. manual for schools - M.: Radio and Communications, 2004. – 608 p. [in Russian]. 4. Levin B.R. Fundamentals of Statistical Radio Engineering. – 3-d ed. Revised. and ext., M.: Radio and Communications, 1989. – 656 p. [in Russian]. 5. Lipkin I.A. Statistical radios. Information Theory and Coding. Publisher: High School, M.: 2002. – 212 p. [in Russian]. 6. Tikhonov V.I. Statistical Radio Engineering. – 2nd ed. Revised. and ext. M.: Radio and Communications, 1982. – 624 p. [in Russian].