Learning objectives
At the end of the course, the student is expected to be able to:
- characterise signals in the time and frequency domain;
- characterise signal processing systems;
- define the architecture of a communication system.
Prerequisites
Mathematical Analysis and Electrotechnics
Course unit content
The course aims to provide the basic elements of the architecture and operation of telecommunications systems, with particular reference to vehicular applications. The student is required to demonstrate, at the end of the course, the knowledge on the following points of particular importance:
- characterisation of signals and systems in the time and frequency domain;
- characterisation of signal processing systems;
- architecture of a communication system.
Full programme
Protocol stack
Signals: frequency domain and spectra.
Systems: transfer function and impulse response.
Communication systems: block scheme.
Thermal noise in communication systems.
Bibliography
Notes provided by the lecturer and books suggested to deepen the study of specific topics.
Teaching methods
Classroom lectures. Laboratory experiences involving the use of Matlab/Simulink and measurement instruments such as oscilloscopes, signal generators, spectrum analysers are also planned.
Assessment methods and criteria
Learning is tested by means of the final examination, which ascertains the acquisition of the required knowledge and skills through a written test followed by an oral test to be taken during the same call. The written test, during which the use of books and notes is not permitted, consists of questions that, in total, give a maximum of 30 points. The oral test consists of an in-depth examination of certain topics covered during the course. The final mark is determined by the combined assessment of the written test and the oral test.
Other information
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2030 agenda goals for sustainable development
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