COMP414 Course Introduction

COMP414Course Introduction Advanced Networking Course coordinator: Peter Komisarczuk © Peter Komisarczuk, VUW, 2003-9

Outline • Who • Peter Komisarczuk (Course dis-organizer) • Co 334 (Tel: 04 463 5661, peterk@mcs.vuw.ac.nz) • Andy Linton, Teaching Fellow, Co 330, 04 463 5657, • What • Lectures/Seminars/Tutorials (35) • Assignments (3) • Labs (5) • Exam (1) • Where and When • See course documents • Time for lab sessions to be arranged, also change of one session? © Peter Komisarczuk, VUW, 2003-9

Learning Outcomes • Enhanced knowledge and understanding of networking through study of: • Internet and Next Generation Networks • Network Technology • Network and Internet Service Provider drivers and concerns (Telco’s and ISP’s) • Developing/enhancing skills in • Analysis of network protocols and architecture • Research and/or practical skills © Peter Komisarczuk, VUW, 2003-9

Course Requirement • Lecture/seminar handouts will be provided • A number of papers will be required reading • The course demands 10 to 12 hours average work per week • 50% of marks split between four assignments • One research essay • Analytical analysis of protocols/networks (numerical) • Labs (5 of them) • Seminars (presentation and report) • 50% of marks on final exam (see formats for 2003 to 2007) • Must gain 50% overall to pass the course © Peter Komisarczuk, VUW, 2003-9

COMP 414 Advanced Networking • Prerequisites: • COMP 306/204 – 30 points at 300 level • Course focus: Next Generation Internet/Networks: “Convergence to IP” • Drivers/Rationale - New Services, Advances in Networking Technology • Network Technologies and Architectures • Quality of Service, multimedia protocols, policy routing • Voice Service Architecture (PSTN/IN migrating to “SoftSwitch”) • Next Generation Internet, broadband deployment • Internet Middleware • Management of Next Generation Networks © Peter Komisarczuk, VUW, 2003-9

COMP 414 Reading List • Free: IBM Redbook TCP/IP Tutorial and Technical Overview. PDF document of > 900 pages – see COMP414 webpage • General good books for reference/background: • Kurose and Ross, Computer Networking, 3/e or 4/e • W. Stallings, Data & Computer Communications, 6/e and 7/e • W. Stallings, High-Speed Networks and Intranets 2/e • A. Tanenbaum, Computer Networks, 4/e • Christian Huitema, Routing in the Internet, 2/e • IETF RFC’s and drafts, IEEE/ACM publications, etc. (See web site resources page for useful sources of information) • Whitepapers from various communications companies: e.g. Cisco Systems, Juniper Networks, etc., the ACM, IEEE, IET and other journal or conference material © Peter Komisarczuk, VUW, 2003-9

Introductory Papers [1] Mohamed El-Sayed, Jeffrey Jaffe, A View of Telecommunications Network Evolution, IEEE, Comms Magazine, December 2002 [2] M H Reeve, C Bilton, P E Holmes, M Bross, Networks And Systems For BT In The 21st Century, IEE Communication Engineer, October/ November 2005 BT = British Telecom (known as 21CN) © Peter Komisarczuk, VUW, 2003-9

Rationale for 21CN? • Replace many “stove-pipe” single service networks with a single “converged” network • Remove multiple OSS (operational support systems) – large $ savings • (Management, billing, customer care, etc.) • Avoids “interworking” issues - large $ savings • Create new opportunities (services) and faster service enablement (provisioning • Intelligence layer and application platforms © Peter Komisarczuk, VUW, 2003-9

BT 21CN “New Architecture” Figures from [2] © Peter Komisarczuk, VUW, 2003-9

21CN Physical Network Architecture NTE – Network termination Equipment BRAS - Broadband Remote Access Server Figures from [2] © Peter Komisarczuk, VUW, 2003-9

Network Provider Architecture • Access Network – “first mile” or “last mile” • Aggregation Network • (Metropolitan Network) • Metro Office Node (IP Services Node or sometimes called aggregation router) • Backhaul Network • Regional Network • Backbone (or core) Network • Inter-network transit points © Peter Komisarczuk, VUW, 2003-9

Service Extensions • Legacy service encapsulation • Mobility Services (session, user, and terminal mobility) • Multimedia Services (voice, video, data) • Hosting Services (e.g. VoD) • ICT Services (outsourcing of infrastructure hardware (terminal and hosting) and software [application] service providers) • Connectivity Services (IP VPN, Ethernet services, optical services, etc.) • Third Party Services (open interfaces, APIs) © Peter Komisarczuk, VUW, 2003-9

Main Principles • All services over IP • Edge adaptation, IP, MPLS, optical core • Multi-Service Access Node (edge) • Metro Node (IP Service Node or BRAS) • Quality of Service (QOS) support • Mobile and fixed network integration • Middleware • 3GPP (3rd generation partnership project) IMS (IP Multimedia Subsystem) • Reusable service components (SOA) • One touch support systems (OSS) • Workflow engine, component orchestration © Peter Komisarczuk, VUW, 2003-9

Next Generation Networks and Convergence Figures taken from Reference 1 © IEEE Optical: technology driver = higher capacity (push and pull), longer distance transmission, dynamic capacity allocation architectures and integration with other services © Peter Komisarczuk, VUW, 2003-9 [1] Mohamed El-Sayed, Jeffrey Jaffe, A View of telecommunications Network Evolution, IEEE, Comms Magazine, December 2002

COMP414 Course Introduction

COMP414 Course Introduction

Presentation Transcript

Course Introduction

COURSE INTRODUCTION

Course introduction

Course Introduction

Course Introduction

Course introduction

Course Introduction

Course introduction

Course Introduction

Course Introduction

Course Introduction

Course Introduction

COURSE INTRODUCTION

Course Introduction

Course Introduction

Course Introduction

Course Introduction

Course Introduction

Course Introduction