Presentation of Complementary courses LM Computer Science & Networking Pisa – May 22 nd 2015 Gregorio Procissi Università di Pisa Dipartimento di Ingegneria dell’Informazione Scuola di Ingegneria Gruppo di Ricerca Reti di Telecomunicazioni (NetGroup)

Courses from NetGroup Aspetti Architetturali e di Progetto delle Reti Wireless Rosario G. Garroppo Architetture, Componenti e Servizi di Rete Michele Pagano Laboratorio di Protocolli e Architetture di Routing (LPA) Davide Adami Architetture di Commutazione ed Elaborazione Dati a Pacchetto Gregorio Procissi Ingegneria del Teletraffico Stefano Giordano (mandatory)

PERFORMANCE AND DESIGN OF WIRELESS NETWORKS (6 CFU) Teacher(s) name: Rosario G. Garroppo Phone: Web page: Semester: Second Exam mode: Oral Colloquium Pre-requisites: Basic Networking Area: GR-a (Networking)

Syllabus Cellular Networks : General structure of a cellular network, GSM network Architecture, UMTS network Architecture, Mobility and session management in cellular networks Wireless LAN : The standard IEEE , Operative modes of IEEE networks, Distributed Coordination Function and Point Coordination Function, IEEE systems evolution, Security threats and solutions in IEEE networks Wireless Mesh Networks (WMN) : MAC protocols, Capacity, Routing protocols, Transport protocols, Fairness issues, QoS, Security and Management issues, The working group IEEE s Multimedia over IP (MoIP): Design issues, The Session Initiation Protocol (SIP), Techniques for the evaluation of the Quality of Experience (QoE)

Thesis available Energy-aware Routing Algorithm The power consumption of network equipment has stimulated several research efforts devoted to the study of new mechanisms to optimize the energy utilization. The characterization of the energy consumption of a network equipment in function of its traffic throughput, denoted as Energy Profile (EP), permits the study of routing solutions aimed at minimizing the overall energy consumption of the network. In this framework, the main goal of this master thesis is the study of new routing algorithms able to minimize the power consumption of the network, while maintaining the performance required by the applications.

Architectures, Components and Network Services (6+3 CFU) Teacher(s) name: Michele Pagano Phone: Web page: Semester: Second Exam mode: Oral + Project Pre-requisites: Knowledge of the network layer (IP), Basic knowledge of Linux Area: GR-a (Networking)

Syllabus Objectives Description of the architecture and protocols of modern packet-switching networks and on-the-field understanding of networking in Linux Topics IPv6 & MIPv6 Multicast communications Transport layer UDP TCP (with detailed analysis of TCP congestion control) Quality of Service Scheduling algorithms Architectures: IntServ and DiffServ Application-layer network overlay: services and architecture Lab module (3 CFU), focused on networking in Linux

Thesis available QoS architettures and related issues Performance evaluation of queueing systems Rare event simulation Anomaly detection

Laboratorio di Protocolli e Architetture di Routing (LPA) Teacher name: Davide Adami Phone Number: Semester: I Exam mode: 581II Pre-requisites: Networking fundamentals Area: Networking (Gr-a)

Syllabus The course provides the basic knowledge and the key concepts to understand the functional components required to design and implement intra and inter-domain routing Main theoretical and practical topics: design and deployment of networks with IGP (RIP/OSPF) and EGP (BGP) routing protocols Traditional lectures are coupled with laboratory experiments (24 hours) which provides students with the possibility to work with commercial routers (Juniper Networks routers). Basic concepts concerning the configuration, management and monitoring of routers are provided At the end of the course, students may obtain Juniper Certification (JNCIA-Junos exam).

Thesis available Cloud Networking Software Defined Networking Approach for Network Resilience Software Defined Networking in the Data center Software Defined Networking in provider networks Software Defined Wireless Sensor Networks

Packet switching and processing architectures (6 CFU) Teacher(s) name: Gregorio Procissi Phone: Web page: Semester: Second Exam mode: Oral colloquium + Project Pre-requisites: Basic Networking, Random processes Area: GR-a (Networking)

Syllabus Objectives The course presents the main network switching architectures, with particular focus on packet switching architectures. After a brief introduction to the notions of circuit and packet switching, the course will focus on the main schemes of packet switching together with their performance and possible issues. The course will also present the OpenFlow platform to run experimental switching solutions. Then, the course will deal with packet processing and will show the main lookup and classification algorithms currently in use. Finally, the course addresses the topic of traffic measurements by introducing advanced probabilistic and deterministic data structures for high performance monitoring applications and pattern matching Topics Basics on switching paradigms Switching fabrics Packet switching architectures (IQ, OQ, CIOQ, …) Packet Processing (Lookup, classification, …) The OpenFlow Switching Platform Traffic Measurements/Monitoring (probabilistic data structures for high speed traffic monitoring)

Thesis available DPI Protocol classification module on top of PFQ traffic capture engine The module should use cross http+DNS information to classify protocol Content based routing on top of PFQ Design and implementation of extended OpenFlow actions within OVS/OFSoftSwitch (this activity will be included in the H2020 project Behavioral Based Forwarding)