Fixed and Mobile Wireless Links

You don't have access to the course
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
A2B17PMS AD2B17PMS
Fixed and Mobile Wireless Links (Main course) A2B17PMS
Credits 6
Semesters Summer
Completion Assessment + Examination
Language of teaching Czech
Extent of teaching 2+2c
Annotation
The goal of the course is to provide basic knowledge of the wireless transmission in real environments for specific applications, namely for the needs of the planning of wireless radio links. The key topics include: the wireless transmission, the link budget for various types of radio links, antenna parameters, basic types and applications of antennas, propagation of radio waves in the atmosphere for specific frequency bands and telecommunication services, propagation models for planning of fixed an mobile links for both terrestrial and satellite services, the interference and frequency planning, basics of cellular networks, ITU-R recommendations.
Study targets
The goal of the course is to provide basic knowledge of the wireless transmission in real environments for specific applications, namely for the needs of the planning of wireless radio links.
Course outlines
1. Basics of general wireless radio link
2. Antenna parameters, basic antenna types and applications
3. Spherical wave in free space, Friis equation
4. Huygens principle, Fresnel zones, geometric optics
5. Wave reflection, scattering, refraction, and diffraction in realistic environments
6. Transmission media for specific frequency bands and telecommunication services
7. Physical aspects of electromagnetic wave propagation in the atmosphere, empirical and deterministic propagation models
8. Propagation of the space wave in the troposphere
9. Line-of-sight links, link power budget
10. Ground surface wave, radio links in LF/MF bands
11. Fundamentals of the wave propagating in anisotropic ionosphere, HF radio links
12. Mobile links, wave propagation in built-up areas
13. Interference and frequency planning in cellular networks
14. Satellite links, the link budget
Exercises outlines
1. Introduction, basic concepts
2. Electromagnetic wave - radiation, experiment
3. Antenna parameters - measurement of radiotransmision
4. Spherical wave, Friis equation - measurement
5. Free space propagation
6. Fresnel zones, diffraction
7. Propagation over a flat ground - measurement
8. Effective earth radius, refraction
9. Link budget of a fixed link
10. Ground surface wave propagation
11. General empirical model
12. Link budget of a mobile link
13. Interference analysis
14. RF planning tools, summary
Literature
[1] Saunders, S., Aragon-Zavala, A., Antennas and Propagation for Wireless Communication Systems, 2nd Edition, Wiley, 2007.
[2] Barclay, L.W., Propagation of Radiowaves, 2nd edition, IEE, 2003.
Requirements
https://moodle.fel.cvut.cz/
Fixed and Mobile Wireless Links AD2B17PMS
Credits 6
Semesters Summer
Completion Assessment + Examination
Language of teaching Czech
Extent of teaching 14+6c
Annotation
The goal of the course is to provide basic knowledge of the wireless transmission in real environments for specific applications, namely for the needs of the planning of wireless radio links. The key topics include: the wireless transmission, the link budget for various types of radio links, antenna parameters, basic types and applications of antennas, propagation of radio waves in the atmosphere for specific frequency bands and telecommunication services, propagation models for planning of fixed an mobile links for both terrestrial and satellite services, the interference and frequency planning, basics of cellular networks, ITU-R recommendations.
Study targets
The goal of the course is to provide basic knowledge of the wireless transmission in real environments for specific applications, namely for the needs of the planning of wireless radio links.
Course outlines
1. Basics of general wireless radio link
2. Antenna parameters, basic antenna types and applications
3. Spherical wave in free space, Friis equation
4. Huygens principle, Fresnel zones, geometric optics
5. Wave reflection, scattering, refraction, and diffraction in realistic environments
6. Transmission media for specific frequency bands and telecommunication services
7. Physical aspects of electromagnetic wave propagation in the atmosphere, empirical and deterministic propagation models
8. Propagation of the space wave in the troposphere
9. Line-of-sight links, link power budget
10. Ground surface wave, radio links in LF/MF bands
11. Fundamentals of the wave propagating in anisotropic ionosphere, HF radio links
12. Mobile links, wave propagation in built-up areas
13. Interference and frequency planning in cellular networks
14. Satellite links, the link budget
Exercises outlines
1. Introduction, basic concepts
2. Electromagnetic wave
3. Antenna parameters
4. Spherical wave, Friis equation
5. Free space propagation
6. Fresnel zones, diffraction
7. Propagation over a flat ground
8. Effective earth radius, refraction
9. Link budget of a fixed link
10. Ground surface wave propagation
11. General empirical model
12. Link budget of a mobile link
13. Interference analysis
14. RF planning tools, summary
Literature
[1] Saunders, S., Aragon-Zavala, A., Antennas and Propagation for Wireless Communication Systems, 2nd Edition, Wiley, 2007.
[2] Barclay, L.W., Propagation of Radiowaves, 2nd edition, IEE, 2003.
Requirements
https://moodle.fel.cvut.cz/
Responsible for the data validity: Study Information System (KOS)