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Lecturer:
Paolo Ettore Gamba
Course name: Telecommunications And Signal Theory
Course code: 502482
Degree course: Ingegneria Informatica
Disciplinary field of science: ING-INF/03
University credits: ECTS 6
Course website: http://tlclab.unipv.it/sito_tlc/downloads.do?catId=Com_
an_dig
Specific course objectives
Knowledge of the frequency representation of a deterministic signal. Understanding the concept of noise as a stochastic process. Knowledge of the simplest techniques for transmitting information. Ability to analyze deterministic signals and calculate fundamental properties (spectrum, bandwidth, power/energy).
Course programme
Deterministic signals in the frequency domain
Fourier series. Fourier series in exponential form. Response of linear systems and properties of transfer functions. Power and energy signals. Power spectral density and energy. The Fourier transform. The convolution theorem. Parseval's theorem. Correlation between waveforms. Auto correlation. Power and cross correlation. Periodic autocorrelation functions. Meaning and Importance of integrals of correlation.
Random variables and processes
Concept of probability, independent events, random variables. Cumulative probability distribution, probability density. Noise as stochastic process. Stationary processes. Ergodic processes.
Communication systems, amplitude modulation
Baseband signal and carrier signal. Translation in frequency. Detection of the baseband signal. Amplitude modulation (DSB, DSB-SC SSB-SC). Spectrum of signals modulated in amplitude. Modulators. Detectors. Multiplexing.
Communication systems, frequency modulation
Frequency & phase of a sinusoidal signal. The FM signal. Spectrum of an FM signal with sinusoidal modulation. FM signals in broadband and narrowband. Spectrum of FM signals. FM modulators and demodulators.
Performance of communication systems
Signal to Noise Ratio. Comparison between AM and FM systems.
Course entry requirements
Knowledge acquired in previous courses in maths and circuit theory.
Course structure and teaching
Lectures (hours/year in lecture theatre): 40
Practical class (hours/year in lecture theatre): 8
Practicals / Workshops (hours/year in lecture theatre): 0
Suggested reading materials
Leon W. Couch II. Fondamenti di Telecomunicazioni. Pearson-Prentice Hall.
Testing and exams
The exam will start with a written test including problems and open questions. Additionally, a mandatory oral examination will sum up to the final result.
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