1. summarize analysis of electromagnetic problems in radio frequency band
2. summarize antenna parameters
3. summarize the concept of near and far field of antennas and antenna arrays
4. describe basic types of antennas, their method of functioning and application
5. design basic types of antenna arrays
6. apply the concept of radiation pattern in antenna application and design
7. design basic types of antenns
8. summarize propagation of EM waves in free space, near ground and in presence of obstacles

Lectures

Exercises

Individual tasks

Laboratory exercises

1. Elementary radiation sources. Antenna input impedance. Antenna efficiency. Radiation pattern, directivity, gain. Effective aperture. Polarization. Antenna noise temperature.
2. Unipoles. Dipoles. Wire antennas. Helical antennas.
3. Horn antennas. Aperture anetnnas. Reflector anetnnas. Lens antennas.
4. Linear antenna array.
5. Planar antenna array.
6. Antenna array synthesis.
7. Antenna mutual impedance. Antenna arrays with unequal element distribution. Reflectarrays.
8. Midterm exam
9. Microstrip and planar antennas. Antennas for RFID and NFC. Printed antennas. Textile antennas.
10. Human body as propagation medium, in-body propagation, on-body propagation, off-body propagation. In- and on-body antennas. Examples of body area networks.
11. Small antennas. Antenna miniaturization. Chu sphere. Antenna integration in mobile terminals.
12. Wideband antennas. Multi-band and ultra wideband antennas.
13. Adaptive and electronically controlled antenna arrays. Radiation pattern switching. Electronic beam scanning.
14. Smart antennas. Direction of arrival estimation. Massive MIMO antennas.
15. Final exam