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17924 - Electrical Communications L-A

Academic Year 2008/2009

  • Docente: Carlo Caini
  • Credits: 6
  • SSD: ING-INF/03
  • Language: Italian
  • Teaching Mode: Traditional lectures
  • Campus: Bologna
  • Corso: First cycle degree programme (L) in Computer Engineering (cod. 0051)

Learning outcomes

Aim of the course
The course is intended to provide the students of Computer Science Engineering with some basic concepts of Electrical Communications. Given the student background, the theoretical treatment, developed in a calssical way, will be complememted by a great attention towards applications and economic aspects to provide the students with the capability of an adequate understanding of telecomunications technology and trends at the end of the course. Moreover, the theoretical treatment will be largely supported by informatic tools, both in lab and in classroom.

Course contents

Lectures

The Comunications World: milestones in the development of technology, applications and economic aspects. 
Fourier analysis:representation of time-continous and time-discrete deterministic functions in the frequency domain; Fourier series and transforms, Dirac's Delta, transform of periodic functions , FFT.
 
Generalized Fourier analysis: autocorrelation functions, energy and power spectral density functions.
 
Linear circuits: transfer functions and impulse response.
Non-distortion conditions,ideal filters, real filters, FIR..
 
Digital conversion of analogue signals: sampling, PCM, uniform e logarithmic quantization, ADPCM, vocoder basics, perceptual coding, basics of MPEG audio and video coding standards..
 
Modulation Theory: general aspects and definition of analogue modulations (AM, PM, FM, product, QAM), low pass equivalent, spectra, basics of digital modulations.
 
Lab activities:
1)      Analysis of a RC circuit;
2)      sampling, spectra, ideal filters, A/D techniques (GoldWave);
3)      Study of AM.modulation in the time and frequency domains.

Readings/Bibliography

L. Calandrino, G. Immovilli, Schemi delle lezioni di Comunicazioni Elettriche, Pitagora Ed., Bologna.
 
L. Calandrino, M.Chiani, Lezioni di Comunicazioni Elettriche, Pitagora Ed., Bologna (più recente e più ampio, in alternativa al precedente).
 
C. Caini, G.Tazzari, Comunicazioni Elettriche e segnali audio, Esculapio Ed., Bologna. (laboratorio software)
 
C. Caini, C. Raffaelli, Laboratorio di Comunicazioni Elettriche, Pitagora Ed., Bologna (laboratorio hardware).
 
Other teaching materials are downloadable from the Internet site of the course.

Teaching methods

Lectures will be make use of different tools, depending on the topics treated: blackboard, PC and videoprojector, multimedia programs, hardware instruments (in lab).

Assessment methods

Written and oral examinations. No intermediate (i.e. during the courses) assessments.

Teaching tools

Program GoldWave, downloadable from:  www.glodwave.com
 
Other support programs are downloadable from the Internet site of the course:
http://www3.deis.unibo.it/Staff/Research/CCaini/corsoCEA/HomeCEA.htm

Links to further information

http://www3.deis.unibo.it/Staff/Research/CCaini/corsoCEA/HomeCEA.htm

Office hours

See the website of Carlo Caini