Unit Telecommunications Networks for Emergency Management

Course

Safety engineering for the territory and the built environment

Study-unit Code

A000923

Curriculum

In all curricula

Teacher

Mauro Femminella

Teachers

Mauro Femminella

Hours

54 ore - Mauro Femminella

CFU

Course Regulation

Coorte 2023

Offered

2023/24

Learning activities

Caratterizzante

Area

Ingegneria della sicurezza e protezione dell'informazione

Academic discipline

ING-INF/03

Type of study-unit

Obbligatorio (Required)

Type of learning activities

Attività formativa monodisciplinare

Language of instruction

Pre-recorded lessons available in Italian and English

Contents

Teaching unit: overview of the TCP/IP protocol stack (2 hours)
Teaching unit: application protocols (12 hours)
Teaching unit: transport protocols (10 hours)
Teaching unit: IP protocol (8 hours)
Teaching unit: overview of the data link protocols (4 hours)
Teaching unit: laboratory experiments using open source IT tools (12 hours)

Reference texts

Reference readings:
J. Kurose, K. Ross, Computer networks and internet. A top-down approach, 6a (or 7a) ed., Pearson, 2013 (2017).
Material used by the teacher during the lesson will be provided through the Unistudium web platform.

Additional readings:
A. Pattavina, Reti di Telecomunicazione, 2nd ed., McGraw-Hill, 2003.

Educational objectives

This is the only course about telecommunications networks in the curriculum, and analyses the basic aspects of networking from a protocols and system point of view. The main objective of the course is to provide methodological and practical tools for the implementation of telecommunications networks and systems that can adequately support operations during emergencies. For this reason, after a general introduction to networking, particular emphasis will be given to the study of wireless networks, their interconnection with wired systems, their design and/or configuration in emergency scenarios.
The main project constraints that the student will be required to consider, depending on the applications to be supported in emergency scenarios, will be the offered functions and the system transmission capacity. The main knowledge acquired at the end of the course will be the basic elements of telecommunications networks, with particular emphasis on high-level protocols, for the interface with the applications to be used in emergency scenarios.

The main skills, i.e. the ability to apply the knowledge acquired in the course, will be:

- evaluation of the most suitable technological solution to the considered scenario (local area, metropolitan, geographical/mobile, satellite network);
- capability of implementing, through open-source software tools, experiments allowing understanding the basic principles of networks;
- master the basic tools for measuring the quality of a network connection.

Prerequisites

In order to understand the teaching content and to be able to apply most of the techniques described, no further knowledge are required in addition to those already included in the courses of mathematics, physics, and basic computer science typical of the curriculum of any first level degree in engineering. This also includes experiments with open source software that will be carried out during the course.

Teaching methods

The course is provided via e-learning. All the material for the studends will be made available through the University web portal (UNISTUDIUM).

Other information

The lessons can be integrated with seminars. Lessons and lab experiences will be carried out always in e-learning mode.

Learning verification modality

The exam includes a single oral test to be held at the end of the course. This test, with an average duration of about 30 minutes, is aimed at ascertaining the level of knowledge and understanding achieved by the student on the theoretical and methodological contents of the course: TCP/IP protocol stack, basic knowledge of application protocols.
This assessment method ensures to ascertain the knowledge and understanding of course topics, the ability to apply the acquired skills, the ability to exhibit them, and to the ability to learn and develop solutions with independent judgment.

Extended program

Teaching unit: overview of the TCP/IP protocol stack (2 hours): basic concepts on the separation of network functions in different protocol layers and functions relevant to each layer;
Teaching unit: application protocols (12 hours): operation of the DNS system, of the HTTP protocol;
Teaching unit: transport protocols (10 hours): basic functions of the transport layer, operation of the TCP protocol (applicability, connection set up and tear down, error control, flow control, congestion control), operation of the UDP protocol (applicability, basic functions)
Teaching unit: IP protocol (8 hours): basic principles of IP protocol, datagram mode, packet format, addressing and routing tables, outline of routing protocols;
Teaching unit: outline of the connection protocols (4 hours): functionality of layer 2, Ethernet switches;
Teaching unit: laboratory experiments using open source IT tools to be used on a virtualized platform (12 hours).

Obiettivi Agenda 2030 per lo sviluppo sostenibile

Quality education
Industry, innovation and infrastrucuture