Digital Methods of Implementation of Infocommunication and Television Systems

Major: Hardware-software devices of information communication systems
Code of subject: 6.172.10.E.077
Credits: 4.00
Department: Radioelectronic Appliances and Systems
Lecturer: PhD, associated prof. Leonid Lazko
Semester: 7 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of teaching this discipline is to acquaint future radio engineers with modern methods of digital signal processing and their application in the technology of radio engineering systems
Завдання: The study of an educational discipline involves the formation of competencies in students of education: general competencies: ZK-1. Ability to abstract thinking, analysis and synthesis. ZK-2. Ability to apply knowledge in practical situations. ZK-3. Ability to plan and manage time. ZK-4. Knowledge and understanding of the subject area and understanding of professional activity. ZK-6. Ability to work in a team. ZK-7. Ability to learn and master modern knowledge. ZK-8. Ability to identify, pose and solve problems. ZK-13. Ability to system thinking; ZK-14. Ability to search and analyze information from various sources. professional competences: FC-1. The ability to understand the essence and significance of information in the development of the modern information society. FC-2. The ability to solve standard tasks of professional activity on the basis of information and bibliographic culture with the use of information and communication technologies and taking into account the basic requirements of information security. FK-Z. Ability to use basic methods, methods and means of obtaining, transmitting, processing and storing information. FK-4. Ability to perform computer modeling of devices, systems and processes using universal application program packages. FC-6. The ability to carry out instrumental measurements in information and telecommunication networks, telecommunication and radio engineering systems. FCS-1. Ability to perform digital signal processing - discrete and fast Fourier transform, correlation and cepstral analysis, wavelet transform and convolution calculation.
Learning outcomes: The ability to demonstrate knowledge of the basics of professionally oriented specialties in the field of radio electronic circuits and circuit engineering, electromagnetic field theory, radio electronic systems theory, telecommunication network theory, automatic control theory, methods of analysis of radio electronic and telecommunication systems and networks, design and production processes, software and hardware programming systems, administration of information networks, information protection, information technologies. The ability to demonstrate in-depth knowledge in at least one of the areas of radioelectronic and telecommunication systems and networks: radioelectronic systems, telecommunication systems and networks, information networks and communication, technologies for designing and manufacturing telecommunications equipment, designing software and hardware systems, developing software for embedded systems, administration of information communication networks. Application of understanding the main properties of the component base to ensure the quality and reliability of the functioning of telecommunications, radio engineering systems and devices. Competently use the terminology of the field of telecommunications and radio engineering Ability to adapt to new situations and make decisions
Required prior and related subjects: Previous academic disciplines: Signals and processes in radio electronics Fundamentals of the theory of radio technical systems Digital devices and microprocessors Associated academic disciplines: Fundamentals of the theory of radio technical systems Digital signal processing
Summary of the subject: In the process of teaching the discipline, modern methods and principles of building digital radio technical systems are considered. The issue of signal transmission in the communication channel, methods and means of synchronization is considered. Attention is paid to the methods of ensuring fault protection and the use of codes with the detection and correction of errors.
Опис: Purpose and content of the discipline "Digital methods of RTS implementation". Tasks of the discipline, its connection with other disciplines and significance for the training of radio engineers. Stages of development of digital radio technical systems A-C converters. A sequential approximation ADC. Sigma-delta ADC. ADC of parallel processing. ADC of conveyor processing. Sequential ADC. Coding of information in the communication channel. Channel codes. Direct digital synthesis. Frequency synthesis using generators and PLL circuits. Flexible direct synthesis systems. Coding of a quantized signal. Interference-resistant coding. Classification of codes. Linear block codes. Control and detection of errors in LBC. Implementation of LBK encoder and decoder. Cyclic codes. Algebraic structure and properties of binary cyclic code. Coding in a systematic form. Digital systems of automatic guidance by direction (CASN). Examples of construction of digital radars in systems for tracking the movement of objects. Element base for RTS implementation. Central processing unit processors and microcontrollers. Programmable logic matrices.
Assessment methods and criteria: Current monitoring of laboratory classes is carried out in order to identify the student's readiness for classes in the following forms: a selective oral survey before the start of classes; evaluation of the student's activity in the course of classes, submitted proposals, original solutions, clarifications and definitions, additions to previous answers, etc. Control questions are divided into: a) test tasks - choose the correct answers; b) problematic – creation of problematic situations; c) questions-replies - to identify cause-and-effect relationships; d) situational tasks - to determine the answer according to a certain situation; e) issues of a reproductive nature - determination of practical significance. The final control is carried out based on the results of the current control and performance of the control work.
Критерії оцінювання результатів навчання: Current control: laboratory classes - 15 points, practical classes - 5 points. Examination control: written component – 70 points; oral component - 10 points. Total for the discipline: – 100 points.
Recommended books: Navchal?no-metodychne zabezpechennya 1. Laz?ko L.V. Z·hortka dyskretnykh syhnaliv. Metodychni vkazivky, 2010, 8 s Rekomendovana literatura Bazova 1. V.P. Bobak, V.S. Khandets?kyy, E. Shryufer. Obrobka syhnaliv. Pidruchnyk dlya studentiv tekhnichnykh spetsial?nostey vyshchykh navchal?nykh zakladiv. Kyyiv, “Lybid?”, 1996. - 392 s. 2. D. Dadzhyon, R. Mersero. Tsyfrovaya obrabotka mnohomernykh syhnalov. Per. s anhl. - M.: 1988, 488s. 3. V.S. Hutnykov. Fyl?tratsyya yzmerytel?nykh syhnalov.- L.: Enerhoatomyzdat, 1990. - 192s. 4. U. Prett. Tsyfrovaya obrabotka yzobrazhenyy. Tom 1 y 2. - M.: Myr. 1982. 5. H.Y. Vasylenko, A.M. Taratoryn. Vostanovlenye yzobrazhenyy - M.: Radyo y svyaz?, 1986. - 304 s. 6. A.M. Krot, E.B. Mynervyna. Bystrye alhorytmy y prohrammy tsyfrovoy spektral?noy obrabotky syhnalov y yzobrazhenyy. - Mynsk: Navuka i tekhnika, 1995.- 407 s. 7. Adaptyvnye fyl?try. Per. s anhl. Pod red. K.F.N. Kouena y P.M. Hranta.- M.: Myr, 1988. - 392 s. 8. R. Gonzales, P. Wints. Digital Image Processing, 1987. 9. C.E. Fal?kovych, V.Y. Ponomarev, YU.V. Shkvarko. Optymal?nyy pryem prostranstvenno-vremennykh syhnalovv radyokanalakh s rasseyanyem. - M.: Radyo y svyaz?, 1989. - 296 s. Dopomizhna 1. L.M. Holdenberh, B.D. Matyushkyn, M.N. Polyak. Tsyfrovaya obrabotka syhnalov. Spravochnyk. - M.: Radyo y svyaz?, 1985.- 311 s. 2. E. Shryufer. Tsyfrova obrobka dyskretyzovanykh syhnaliv. Pidruchnyk dlya studentiv tekhnichnykh spetsial?nostey vuziv. Pereklad z nim., 1992. - 294 s. Informatsiyni resursy 1. DSP Guide – Rezhym dostupu: https://www.dspguide.com/. Show more 1,507 / 5,000 Translation results Translation result Educational and methodological support 1. Lazko L.V. Convolution of discrete signals. Methodical guidelines, 2010, 8 p Recommended Books Basic 1. V.P. Bobak, V.S. Handetskyi, E. Schrufer. Signal processing. Textbook for students of technical specialties of higher educational institutions. Kyiv, "Lybid", 1996. - 392 p. 2. D. Dudgeon, R. Mersereau. Digital processing of multidimensional signals. Trans. with English - M.: 1988, 488 p. 3. V.S. Gutnikov Filtering of measurement signals. - L.: Energoatomizdat, 1990. - 192p. 4. U. Pratt. Digital image processing. Volumes 1 and 2. - M.: Mir. 1982. 5. G.I. Vasylenko, A.M. Taratorin Restoration of images - M.: Radio and communication, 1986. - 304 p. 6. A.M. Mole, E.B. Minervina Fast algorithms and programs for digital spectral processing of signals and images. - Minsk: Science and Technology, 1995. - 407 p. 7. Adaptive filters. Trans. with English Ed. K.F.N. Cowen and P.M. Granta. - M.: Mir, 1988. - 392 p. 8. R. Gonzales, P. Wints. Digital Image Processing, 1987. 9. C.E. Falkovych, V.I. Ponomarev, Yu.V. Squeaky Optimal reception of space-time signals in radio channels with scattering. - M.: Radio and communication, 1989. - 296 p. Auxiliary 1. L.M. Goldenberg, B.D. Matyushkin, M.N. Pole. Digital signal processing. Directory. - M.: Radio and communication, 1985. - 311 p. 2. E. Schrufer. Digital processing of discretized signals. Textbook for students of technical specialties of universities. Translation from German, 1992. - 294 p. Information resources 1. DSP Guide - Access Mode: https://www.dspguide.com/.