Funadamentals Of Modeling And Designing Of Software And Hardware Of Radioelectronics (курсова робота)

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.03.E.111
Credits: 2.00
Department: Radioelectronic Appliances and Systems
Lecturer: Matiieshyn Yurij Mykolayovych
Semester: 7 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following program learning outcomes: LO1: ZN8. 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, hardware and software programming systems, administration of information networks, information protection, information technologies. LO2: ZN9. 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 communication networks, technologies for designing and manufacturing telecommunications equipment, designing software and hardware systems, developing software for embedded systems, administration information communication networks. LO3: UM6. 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. LO4: KOM1. Competently use the terminology of the field of telecommunications and radio engineering. LO5: AiB1. Ability to adapt to new situations and make decisions.
Required prior and related subjects: Previous academic disciplines: - Digital circuitry - Software and hardware in telecommunications and radio engineering - Microprocessor systems in telecommunications and radio engineering Associated and following academic disciplines: - Digital methods of implementation of radio engineering systems - Fundamentals of digital television - Digital signal processing
Summary of the subject: When completing the course work, the student considers in detail the design of software and hardware devices on microcontrollers with a Cortex-M3 processor core. Considers a number of issues of designing radio electronic devices on DSP, PLM, PML and FPGA microprocessors. Considers in detail the construction of hardware parts and programming of Cortex-M3 microprocessors in the Ci language. Students learn to model signals in hardware and software radio engineering tools using examples of various radio engineering signals. Signals are generated in analog and digital forms. Students study the influence of the sampling frequency and bit rate of the DAC on the accuracy of signal representation. Determine the average statistical error of signal conversion from analog to digital form, etc. Students also learn to design the hardware part and the software part in software-hardware radio technical tools using the example of a generator of various types of radio technical signals.
Assessment methods and criteria: Current control is carried out in order to identify the timely completion of course work in the following forms: - a selective oral survey before the start of classes; - assessment of the student's activity in the process of course work; - submitted proposals, original solutions, clarifications and definitions, additions to previous answers, etc. Control questions are divided into: - test tasks - choose the correct answers; - problematic – creation of problematic situations; - questions-replies - to identify cause-and-effect relationships; - situational tasks - to determine the answer according to a certain situation; - issues of a reproductive nature - determination of practical significance. Final control is carried out based on the results of current control and completion of course work.
Recommended books: Basic 1. Frunze A. V. Microcontrollers? It's simple! - M .: ID SKIMEN LLC, 2003. - T. 3. - ISBN 5-94929-003-7. 2. Joseph Yu. ARM Cortex-M3 core. Complete guide, translated from English. A.V. Evstifeeva, Moscow, 2012. 3. Belov A.V. Self-tutor on microprocessor technology / Alexander Vladimirovich Belov. St. Petersburg: Science and Technology Publishing House, 2003. Additional 1. Rusanov V.V., Shevelev M.Yu. Microprocessor devices and systems. Tutorial. Tomsk: TUSUR, 2007 2. Vasiliev A.E. Microcontrollers. Development of embedded applications / A.E. Vasiliev - St. Petersburg: BHV-Petersburg, 2008. - 304 p.: ill. 3. Joseph Yiu. The Definitive Guide to ARM® Cortex®-M0 and Cortex-M0+ Processors, 2nd Edition. Release Date: 26 Jun 2015 , Imprint: Newnes, Print Book ISBN :9780128032770. Pages: 784. 4. Belov A.V. We create devices on microcontrollers / Alexander Vladimirovich Belov. St. Petersburg: Publishing house "Science and Technology", 2007. - Series "Radio amateur". 5. Ogorodnikov I.N. Microprocessor technology: an introduction to Cortex-M3 / textbook, tutorial Ural. Univ., 2015. - 116 p. 6. Brodin V.B., Kalinin A.V. Systems based on microcontrollers and LSI of programmable logic. - M., ECON Publishing House, 2002. - 400 p.