Post on 31-Jan-2016
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transcript
IPv6 In the NGN market for multimedia services
Asher ShiratzkyCTO TBU
Febru
ary
20
07
IPv6 benefits and drivers
Generic Benefits of IPv6
Key benefit – increasing address spaceIPv4: 32-bit, ~ 4.3 billion addressesIPv6: 128-bit, ~ 340 undecillion addresses (3.4x1038)
Other advantagesAuto-configuration via neighbor discoveryMobilityBetter routing efficiency and flexibility
Six fields removedExtension header added
IPSec is mandatoryPerformance improvement for broadband utilization
Jumbograms 4 GB (going to 32) in v6 vs. 64KB in v4use flow label to largely increase the network utilization
QoS included in IPv6 headersEnd to End (security, QOS)
Key Drivers for IPv6
Large address space is the most compelling reason for IPv6IPv4 addresses limitation starts to restrict Internet growth and use, especially in China, India, and other heavily populated Asian countriesIPv4 address exhaustion has been predicted in less than 8 yearsGovernment mandates: Japan, US, China…Explosion of wireless IP devices
2 billion mobile phones by 2006, not enough with what is left today with IPv4
The urgency of providing IPv6 services in USUS Office of Management and Budget (OMB) government Mandate in 8/2005 “Federal agencies must use the next-generation Internet service known as Internet protocol version 6 (IPv6) by June 2008…”Following the mandate, government agencies would need to upgrade their IPv4 VPNs to IPv6 VPNs by mid 2008
NGN and IMS
UTRAN GERAN WLAN CDMA2000WCDMA
Access network
Terminals
IMS Internet
CS domainPS domain
What is IMS?IP Multimedia Subsystem A technology that enables exciting multimedia servicesPart of the core network, with interfaces to subsystems in the 3G networkA group of specifications being standardized by the 3GPP
What else is IMS?An architecture for service and call controlOne network can easily serve roaming subscribersDesigned to be flexible, robust, and secureCan easily introduce new Internet nature services and capabilities
IMS in a nutshell
Where is IMS positioned?
Wireless
Wired
WirelessNetworks
IMS
CellularVoice/ Video/
Data
Wired DataNetworks
Wired Voice & videoNetworks
ConvergedIP Network
WirelessIP Network
Anytime,Anywhere
Applications
Anytime,Anywhere
Applications
All networks speaking the common language of IP
Legacy networks
IMS architecture – layered approach
IMS-MGW
IPv6 PDN(IPv6 Network)
I-CSCFS-CSCF
BGCF
Application(SIP, OSA Parlay,
CAMEL)
BB)IPv4/IPv6(
CS Networks(PSTN, CS PLMN)
CSCF
P-CSCF
OSA SCSIM SSF
SIP AS
AS
SLF
ALG
IMS GW
IPv4 PDN(IPv4 Network)
HSS
‘IMS Data’
Service/Applications Layer
IMS Layer
Transport Layer
HLR/AuC (‘CS/PS’)
MGCF
SGW NASS SPDF/ A-RACF
TrGW
MRF
ALG
TrGW
MRFC
MRFP
IMS Session Signaling
IMS User Plane Data
DSLAMUE
BAS
UE
UE
BG
WLAN WAG WLAN PDG
RAN
SGSN3GPP R5
3GPP R6
3GPP R7 / TISPAN R1…
GGSN PEF
Organization involved in IMS
Who will consume IP addresses
Cell/ IP/ Soft phones/ PDAhomer networksAutomobileTVSTBSurveillance/ Video camerasSensor Networking technology (RFID, etc.)Gaming consoleServices (Gaming, Gambling, PTx, …)
IPv4 address space is limited!!!
Example of P2P IP connectivity
CSCF
IPv6SIP
Invite player
Peter accepted the challenge!
Thomas Peter
Thomas challenges
you to a game of
checkers!
Accept DeclineAccept
IP Connection
Game data
Quit
Chat
Push toStream
Peter: 00:00:00Thomas: 00:00:00
CSCF
SIP
Invite player
Peter: 00:00:00Thomas: 00:00:00
Chat> Peter: I am going to win this time!>Thomas: Yeah right, in your dreams!
Thomas PeterIP Connection
Game data
Chat
Push toStream
Quit
Chat
Peter: 00:00:00Thomas: 00:00:00
> Peter: I am going to win this time!>Thomas: Yeah right, in your dreams!
IPv6
Example of P2P IP connectivity
CSCF
SIP
Invite player
Peter: 00:00:00Thomas: 00:00:00
Chat> Peter: hey, look what just passed by!
Thomas PeterIP Connection
Game data
Streaming video
Push toStream
Quit
Peter chooses to add a
streaming component to share what he
is seeing
Streaming video from Peter:
IPv6
Example of P2P IP connectivity
Future mobile services = ”serverless media”
CSCF
SIP
Thomas PeterIP Connection
Game data
Chat
Peter: 00:00:00Thomas: 00:00:00Signalling only
Media components
No NATs in between, public IP addresses are needed
Example services: gaming, chat, streaming, Voice/video over IP, etc.
The SIP/IMS user plane is peer-to-peer in nature - SIP/IMS sessions between mobiles in different Private IPv4 address spaces become highly complicated. This is why public IP addresses are required. The only future proof solution is provided by IPv6.
The SIP/IMS user plane is peer-to-peer in nature - SIP/IMS sessions between mobiles in different Private IPv4 address spaces become highly complicated. This is why public IP addresses are required. The only future proof solution is provided by IPv6.
IPv6
NGN Multimedia services – driving for IPv6
IPTV – Poor quality, high costNo end to end quality controlMust send one stream for every customer -- $$$
V2oIP - Difficult to control qualityTriple/ Quad playP2P/ M2M
global peer-to-peer services
FMC
NAT traversal in NGN – Ipv6 drivers
How about NAT (network address translation) ?Management effortTopologies and environmentSIP Call setup timeEnd-to-end security End-to-end QoS
NGN Key Drivers for IPv6
Large address space is the most compelling reason for IPv6
Cellular and wireless market is moving to IP
Mobility (MIPv6)Better battery lifeBetter spectrum utilization
Fast HandoverSeamless mobility
QOE Call setup timeNAT elimination
Summary and conclusions
IPv6 is behind the corner (technology, regulation)All the NEP/ TEM vendors are already building & selling IPv6 enabled elementsNew NGN development is done mainly for IPv6, but with support for IPv4The migration to All-IP is the main driver for IPv6 benefits
Thank you
Asher ShiratzkyCTO TBUAshers@radvision.com
Feb
ruar
y 200
7