Project Description

Obiettivi

Students will be acquainted with the numerical transportation network architectures for telephony, data and their evolution, with the problems concerning the IP transportation on the network backbones and the MPLS technology, with the architectures and the protocols of the transportation of the Voice over IP, both as for the signal and as for the transportation af the sound flow, with the alternatives for the access networks and with the switched ethernet technologies for wired LAN, IEEE 802.11 for wireless LAN and the network architectures for xDSL access.

Programma

9 CFU-program:
General introduction to the access alternatives. Access technologies: : – Switched Ethernet – IP over Ethernet – Wireless LAN – xDSL Access.
General introduction to multiplexing techniques. PCM numerical multiplexing. Asynchronous (PDH) and synchronous (SDH) numerical multiplexing. ISDN Network. Data transportation technologies evolution: X.25, Frame-relay, ETM. IPtransportation on the network backbones: from IP over ATM to IP over Optical Networks. MPLS technology. Voice over IP transportation. Voice over IP signaling. SIP: Architecture and protocol. Sound flow transportation: brief notes about voice codifications (G.711, G.723, iLBC), RTP protocol. Routing algorithms (Dijkstra, Bellman-Ford). Routing protocols classification. RIP, OSPF, BGP.

6 CFU-program:
General introduction to the access alternatives. Access technologies:
– Switched Ethernet – IP over Ethernet – Wireless LAN – xDSL Access.
General introduction to multiplexing techniques. PCM numerical multiplexing. Asynchronous (PDH) and synchronous (SDH) numerical multiplexing. ISDN Network. Data transportation technologies
evolution: X.25, Frame-relay, ETM. IPtransportation on the network backbones: from IP over ATM to IP over Optical Networks. MPLS technology. Voice over IP transportation. Voice over IP signaling.
SIP: Architecture and protocol. Sound flow transportation: brief notes about voice codifications (G.711, G.723, iLBC), RTP protocol. Routing algorithms (Dijkstra, Bellman-Ford). Routing protocols classification.
RIP, OSPF, BGP.

0 crediti
90 ore di lezione
0° Anno
Laurea Magistrale
0° semestre
dal 05/03/2018 al 01/06/2018