- Docente: Giovanni Tartarini
- Credits: 9
- SSD: ING-INF/02
- Language: English
- Moduli: Giovanni Tartarini (Modulo 1) Diego Masotti (Modulo 2) Marina Barbiroli (Modulo 3)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2) Traditional lectures (Modulo 3)
- Campus: Bologna
-
Corso:
Second cycle degree programme (LM) in
Electronic Engineering (cod. 0934)
Also valid for Second cycle degree programme (LM) in Telecommunications Engineering (cod. 8846)
Learning outcomes
Understand the physical characteristics of transmission channel, transmitting and receiving ends, and main components and devices, to design, at the level of Physical Layer, state-of-the-art radiofrequency telecommunication systems and optical telecommunication systems.
Course contents
Radio propagation and advanced wireless applications ( Prof. M. Barbiroli)
Short recall of Maxwell's equation solutions: plane waves,
spherical waves, radiation from a
generic antenna, main radiation parameters and generalized
Friis equation.
Fundamentals of geometrical theory of propagation including the
concept of ray and the possibile
interactions of a ray on canonical obstacles.
Propagation in man-made environment. Multipath propagation
and its impact on the radio channel.
Radio links and area systems. Short-range, UWB, radar,
RF-ID transmission systems.
Multidomain Design of Radiofrequency Circuits (Prof. D. Masotti)
Fundamentals of antenna theory.
Analysis and design of radiofrequency/microwave antenna systems for standard and advanced applications.Nonlinear/electromagnetic co-design of active antenna subsystems combining electrical and radiation performances.
Entire SISO/MIMO link simulation
Optical Transmission Systems (Prof. G. Tartarini)
The optical fiber: modal propagation and transmission properties.
Optical transmitters, receivers and main optical devices: fundamentals and principal characteristics.
Trasmission of digital signals and transmission of radiofrequency signals in optical fiber systems.
Engineering and design aspects of present optical transmission systems.
Readings/Bibliography
1. H. L. Bertoni, Radio Propagation for Modern Wireless Systems, Prentice Hall
2. C. A. Balanis, Antenna theory: analysis and design,
Wiley
3. R.E. Collin, Foundation for Microwave Engineering, Wiley
4. S.A. Maas, Nonlinear Microwave and RF Circuits, Artech House
5. Saleh, Teich, Fundamentals of Photonics, Ed. Wiley
6. G. Keiser, Optical Fiber Communications, Mc Graw Hill
Teaching methods
Lessons:
* 'Traditional' Blackboard
* Videoprojector
Exercises:
* Traditional Blackboard
* Software Design Tools
Assessment methods
The exam will consist in three short interviews, one for each of the three parts of the course.
Part of the interview may consist in written exercises
The students have the possibility to sustain separately the different parts of the exam.
Teaching tools
Course notes and exercises from the Professors
Laboratory activities (Software Design)
Seminars
Office hours
See the website of Giovanni Tartarini
See the website of Diego Masotti
See the website of Marina Barbiroli