I Minds2009 Future Networks Prof Piet Demeester (Ibbt Ibcn U Gent)

Future Networks

Piet Demeester

Internet: its basic functionality

How to find a destination ?

How to transfer information ?

Routing Table

189.123.0.0 X

193.191.0.0 Y

X

Y Z

DNS

www.ibbt.be 193.191.148.49

IP-address (D)

193.191.148.49

D

BGP

Network of Networks

Packets

(typ. 1500 byte)

Best Effort

OSPF

Routing

Internet

IPTV

Internet: the IP hourglass

General Trends

Traffic

Users

Information

Content

Devices

Applications

Energy

TRAFFIC: Increase is Consumer Driven

Traffic doubles every 2 years

Consumer traffic: 75% of total traffic Source: Cisco

10,0

00 P

Byte

/Month

= 3

0 T

bit/s

ec

TRAFFIC: Video will be the Key Driver

Source: Cisco

Consum

er In

tern

et T

raffic

Video “streaming” (very large transfers)

Bitrate / stream will increase (better quality)

3D, multiple views, bidirectional, immersive, …

TRAFFIC: Video Bitrate Increase

4K

2K

HD2

HDTV

HDV

4K2

2K2

8K

Consumer HD

HDTV

Stereo HD

Digital Cinema

Stereo 4K (future)

UHDTV

5 - 25 Mbps

20 Mbps - 1.5 Gbps

200 Mbps - 3 Gbps

250 Mbps - 7.6 Gbps

500 Mbps - 15.2 Gbps

1 - 24 Gbps

More

SHD SHD (Quad HD) 250 Mbs - 6 Gbps

Sourc

e: w

ww

.Cin

egrid

.org

TRAFFIC: Video Examples

3D video

Immersive video

INFORMATION: Worldwide Growth

Source: www.emc.com

Kilo: k = 103

Mega: M = 106 Giga: G = 109

Tera: T = 1012 Peta: P = 1015

Exa: E = 1018

Zetta: Z = 1021

How to store, distribute, filter and preserve ?

How to find useful information in a distributed environment ?

END DEVICES: Personal

How to access, coordinate, preserve, secure, …

11

END DEVICES: Embedded

12

Artificiële retina

USERS: Worldwide Growth of Mobile

Connecting the world

ENERGY

Footprint ICT:

4% of primary energy today

8% of primary energy by 2020

26

28

22

40

40

Power Consumption (GW)

Data centers PCs

Network Equipment TVs

Others

Competences

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

Outline

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

Symbiotic

Networks

Multitude of access technologies

Example in Home/Office

Different independent co-located wired/wireless networks

Multi-radio devices (Software Defined Radio)

© Bitwave Semiconductor IMEC

Challenges

Better connectivity / less interference

Improved scalability and flexibility

Better QoS/QoE guarantees

More efficient use of scarce/underutilized spectrum

More efficient energy consumption

Lower radio emissions (green radio)

New & advanced cross-network services

Different co-located wired/wireless networks ...

... with symbiotic networking capabilities

Symbiotic networking

Symbiotic networking

iLab.t: Wireless Test Lab

22

200 Nodes

Wireless LAN

Sensor networks

iLab.t: Exposure assessment

Outline

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

Autonomous

Networks

Converged Infrastructure

Network (IP)

Transport (Optical)

Computing

Storage

Information

Challenges

Connectivity of billions of end systems (terminal, interface,

sensor, server, …) with fixed or wireless access

Transfer of enormous amounts of information (files, streams, messages, …)

QoS/QoE (bandwidth, delay, jitter, …, perception, …)

Infrastructure: not only network but also integrated storage

and computing resources

Sustainable, reliable, scalable, (re-)configurable, …

Autonomous networking

Global framework for autonomic

networking

Resource optimization

QoE management

Self Learning

Autonomic components

Admission control

Content adaptation

Caching & Buffering

Quality switching

…

Sustainable

Investigate

alternatives for

complex PC simple and fast “wake

up” and usage

adaptive modes of

network and clients

Power adaptive netw.;

guarantees always

basic communication adaptive control of

components based on

communication

requirements

High sharing ratio of

servers; Economy of

scale & industry based

Highly efficient power

adaptive processing

Virtualization

Energy management

solutions e.g. controlled

link capacity NG servers + ECO data

centre architecture

Virtualization

Access

Network

IP / OPTICAL

Core Network

ECO - Server Efficient Clients and

home networks

Cloud Computing, I/SaaS, P2P, content replication, …

iLab.t : Virtual Wall

100 nodes

500 interfaces

> 1 Tb/s switch

Outline

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

Personalization

Application

Network

Device

Content

How to support “My Applications”

How to build “My Network”

How to access “My Content”

How to feed “My Interface”

How to sense “My Context”

32

A self-organizing virtual overlay network

distributed groups of nodes deploying ad hoc networking techniques

Personal

both in terms of networking and applications and services

Scalable content management

Index and search functionality

P2P overlay network ( DHT)

Scalable content search

Caching mechanisms for search results

34

Context model example based on ontologies (OWL)

35

Outline

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

Smart Grid, Media

Production, eHealth,

Personal recommendation

Conclusions

Converged Infrastructures

Converged Networks

Fixed Mobile Sensor

User

Application Domains

Interaction Personalized

Services Content

Techno Economics

Green & ICT

Quality

(QoL, QoE, QoS)

Fundamental

Research

Experimental

Verification

Service platforms

Distributed Software

Management platforms

TIGER

Contact Information

Piet Demeester

piet.demeester@intec.ugent.be

M: 0476 248 322

T: 09 331 4920