# 28014 - Foundations of Telecommunications T

### Course Unit Page

• Teacher Carlo Caini

• Credits 9

• SSD ING-INF/03

• Language Italian

• Campus of Bologna

• Degree Programme First cycle degree programme (L) in Computer Engineering (cod. 9254)

• Course Timetable from Feb 17, 2021 to Jun 03, 2021

## Learning outcomes

Basic knowledge on Fourier analysis (continous- and discrete-time signals) and linear systems. Introduction to communication networks. Introduction to ISO-OSI and TCP/IP stacks.

## Course contents

Fourier Analysis (time-continuous signals)
Analysis in the frequency domain of deterministic time-continuous signals. Fourier Series; Fourier Transforms; Dirac's Delta; Fourier transform of distributions (generalized functions), step signals and periodic signals.
Fourier Analysis (time-discrete signals)
Analysis in the frequency domain of deterministic time-discrete signals. Discrete-Time Fourier Transform (DTFT), the Nyquist-Shannon sampling theorem, Shannon's series, Discrete Fourier Transform (DFT), FFT.
Linear systems
Definition of linearity. Impulse response and transfer function of time-invarying linear systems. Non distortion conditions. Ideal, real and FIR filters.
Analog to digital conversion
Analog to digital conversion (PCM).
Generalized Fourier Analysis
Cross and auto correlation functions of deterministic signals. Energy and power spectra.
Modulation Theory
Introduction; analogue modulations (AM, PM, FM, DSB-SC, QAM).

Digital signals

Digital PAM signals: bipolar and multi-level encoding, power spectra. Basic elements of digital modulations.

ISO-OSI and TCP-IP models
Network architectures: layers, protocols and services. ISO-OSI and TCP-IP models.

Link layer services. Basics of Ethernet (10, 100 e 1000 Mbit/s); CSMA/CD protocol; basics of IEEE 802.11 (WiFi); CSMA-CA protocol, MAC addresses, hubs e switches.
Layer 3 (Network)
Network layer services; connection oriented and connectionless protocols (datagram), logical addresses, routing table, IPv4, basics of IPv6, NATs.
Layer 4 (Transport)
Transport services; UDP and TCP protocols (ACK, retransmission mechanisms, flow control, congestion control); ports.
DTN
Basics of “challenged networks” and of DTN (Delay-/Disruption-Tolerant Networking) architecture.

Lecture notes provided via web (IOL) on the first part of the course.

Slides provided via web (IOL) on the second part of the course.

References:

A.S. Tanenbaum, "Computer Networks", Pearsons, 5th edition

## Teaching methods

Lectures and lab activities.

## Assessment methods

Written and oral examinations. No intermediate (i.e. during the courses) assessments. The examinations will be carried out in January, February, June-July (3 dates), September. The questions of the written test can include quizzes, theory questions and excercises. The oral examination is compulsory and will follow on the same day or on the next few days.

## Teaching tools

Goldwave audio editor for activities related to audio signals and linear systems. Other programs and Excel spreadsheets.

## Office hours

See the website of Carlo Caini