Thank you Copyright©2015 Copyright ©2015 Huawe Huaweii Techno Technologies logies Co., Ltd. All Right Rights s Reserv Reserved. ed. Theinformationin Theinforma tionin thisdocume thisdocument nt may con containpredic tainpredictivestatem tivestatementsinclud entsincluding ing,, wit withoutlimita houtlimitation tion,, stat statemen ements ts reg regardi arding n g the futu future re fin financi ancial al and an d ope opera rati ting ng re resul sults ts,, fut futur ure e pr produ oduct ct po portf rtfol olio,new io,new tec techno hnolo logy gy,, et etc. c. The There re ar are e a num numberof berof fa facto ctors rs th that at cou could ld cau cause se act actual ual re resu sults lts an and d develop dev elopment ments s to diff differ er mate materia riallyfrom llyfrom tho those se expr express essed ed or impliedin i edin thepredic thepredictivestatem tivestatement ents. s. The Therefo refore,such re,such info informat rmationis ionis pro provide vided d for refere ref erence nce pur purposeonly poseonly andconst andconstitut itutes es neit neitheran heran off offer er noran acc accepta eptance nce.. Hua Huaweimay weimay cha changethe ngethe info informa rmatio tion n at anytime wit withou houtt not notice. ice.
Februar Febru ary y 21st, 2018 STC 5G Workshop, Riyadh
Content • • • • •
• • •
The 3rd Paradigm Shift of Mobile Industry is Happening
eMBB
mMTC
uRLLC
Gigantic Gap in Services & Network Requirements
v
5G Core Expectations Business Enabler: Mass Market to Vertical
B u s i n e s s
10X Experience C a p a b i l i t i e s
40->5ms Latency 1G->15Gbps per User
Target
Enablers
10X Efficiency, Biz Agility
• • •
CUPS MEC High throughput
5X Connections
TTM: 6 Months ->1 week
• • •
Service Based Architecture Network Slicing Automation
8B -> 40B
• •
Access Agnostic FMC
Experience
Efficiency
Connections
Cloud Native to Achieve Software Architecture Ready Cloud for all functions in Core
Cloud S/PGW
Cloud UPF
Cloud MME Cloud SMF
Cloud IMS Cloud AMF
Cloud Native Stateless Design for VNF
Database
MANO
Other VNF
NFVO
Service Processing Unit VNFM
Cloud OS (FusionSphere-OpenStack, VMware, Redhat …) DC1 (Huawei, HP, …)
DC2 (Huawei, HP, …)
VIM
Elasticity
Resiliency
Location unawareness and scaling Stateless design
VNF-based and infrastructure agnostic N-way, DC unawareness design, auto-healing
Load Balancer
Agility “Lego Style”development as assembling Service decomposition, C/U split, orchestration
S e r v i c e G o v e r n a n c e F r a m e w o r k
High Efficiency All active Design Improved Resource efficiency 30%+
Experience
Efficiency
Connections
Distribute the User Plane to Enhance User Experience 2/3/4G Core Network
5G Core Network
Core (CP+UP) Central DC IP Core
>40ms
IP Core
Local DC Metro
>40ms
Core-CP Core-UP
Core-UP Metro
Edge DC
<20ms
Core-UP
1~5ms
• • •
Core Network deployed in central DC Multi-hop aggregation Architecture can’t not secure low latency services
• • •
User plane distribution to Local and Edge User plane on-demand deployment Architecture supports ultra reliable and low latency business
Experience
Efficiency
Connections
Service Based Architecture to Enhance Efficiency 2/3/4G Core Network
5G Core Network
HSS
Core-CP UTRAN GERAN
SGSN
MME
PCRF
AUSF
SMF
AMF
PCF
RESTful Service Interfaces UDM
eNB
SGW
NEF
NRF
PGW
4G DHCP Non-3GPP
5G New RAT
ePDG AAA
• •
Bulky network, functions coupled with NEs Long time to deploy a new function Long time to deploy a new business or service
Core-UP UPF
Non-3GPP
• Refactor Control Plane with SOA • Functions decoupled from NEs • Dynamic orchestration Independent services, fast innovation
Experience
Efficiency
Connections
Network Slicing to Enhance Biz Agility BSS/OSS Network Slice Management Function (NSMF) Network Slice Subnet M anagement Function(NSSMF)
AM
AMF RAN
Transport
Unify Access
MM
SMF
AUSF
PCF
UPF
UDM
Slice1
MM
SMF
AUSF
PCF
UPF
UDM
Slice2
SMF
AUSF
PCF
UPF
UDM
Slice3
MM
Core Slice Domain
VPN/ FlexEth
Sliceid
No impact to RAN and transport with Unify Access in AMF
Core Network manage diversity business requirement, Core Network Slice Go Frist
MANO
Experience
Efficiency
Connections
Access Agnostic to Enable All Connections SGSN/EPC
GSM
UMTS
LTE
NR
5G NG Core
LPWA (e.g.NB-IoT)
WiFi
Fixed
Shortrange
Satellite
… 8B
12B
8 Billion
10M
3B
5X
5B
1.2B
19B
xM
*by 2025, Ovum, Analysys Mason, Machina
40 Billion
Target 5G Core Network: Cloud Distributed Core, Convergence for all Access and all Services NGC
Voice
2/3/4/5 G
Wi-Fi
NB-IoT
Fixed
Indirect
E n a b l e A l l A c c e s s
Control & User-Plane
User-Plane
User-Plane
MEC UPF
Multi App
DCI
100X Edge DC For MEC stadium, hotspot / V2V Auto Driving
Unlicensed
UPF
Gi-LAN
FW
AMF
SMF
PCF
UDM
UPF
Gi-LAN
FW
…
DCI
10X Local DC
1X Central DC
For HD video/HD voice/Game
For Water Meter/ internet Web
E n a b l e A l l S e r v i c e s
Video
Autonomous Car
Manufacture
Smart City
Remote Medical
6 Key Characters
1
2
3
4
Cloud
SBA
CUPS
MEC
5 Convergence
6 Slicing
Content • • • •
• •
Key Milestone Towards 5G Commercialization 2015
2016
2017
2018
Technical Requirements
Proposals IMT2020
WRC15
Rel-15 ph1.1
5G NR Rel-13
2020 IMT2020 Specifications
WRC19
eMBB
Rel-12
2019
Rel-14
Rel-15 ph1.2
Rel-15
Full IMT-2020 NR
Rel-16 Rel-16
5G = NR + eLTE 5G comprises: • New Radio (NR) • enhanced Long Term Evolution (eLTE)
• Next Gen Core • Evolution of EPC
From EPC to EPC+, a temporary 5G Core solution
-
•
EPC+ inherit all the EPC Functions and Features
•
EPC+ Extend to support 5G eMBB services as following:
1. QoS Extension to support eMBB High Bandwidth
-
2. Networking Extension for core support NR Access
-
3. Others Enhancement on MME, PCRF…
E,g, extended EPS quality of
E,g, NAS(UE-MME) : UE shall set
E.g. MME perform PDN GW
service IE and extended APN-
DCNR bit to "dual connectivity with
selection for 5G UE
AMBR IE (Impact NE: MME,
NR supported" in ATTACH REQUEST
SGW,PGW…)Require GW
message, MME determiner the
Support 10Gbps Bandwidth
access permission and rejection
“
”
“
”
E.g. Policy Control for 5G UE From 3GPP TS 23.401
6 Key difference form EPC to 5G Core 1
• Service based architecture
4
− Enable each NF to interact with other
− Support local breakout and may have
NF directly via service based interface
parallel nodes serving the same APN
− Benefit: Agility & Open
2
• Native Support CUPS
− Benefit: Best User Experience
5
− Dedicated UPF (user plane) with various
3GPP, non-3GPP, Fix access
− Benefit: Simply & Efficiency
Modularize the function design − AMF/SMF/PCF… evolution from MME/PCRF, New NFs (NEF/UDR…) − Benefit: Flexible & Open
• Converged access-agnostic core − with a common AN - CN interface for
control plane
3
• Native support MEC and Continuity
− Benefit: Simply & Efficiency
6
• Network Slicing for diverse services − E2E resource include RAN and Core − 3 Standardized Slice/Service type − Benefit: Flexible & Automotive
EPC+ supports 5G early apply & NGC is target 5G core EPC NAS
N1
S1-U
NR
NR S1-C
UE
EPC+ UE
eNB
Evolved eNB
Option 3/3a Category Standard Available Function
Networking
N3
N2
Evolved eNB
NGC UE
• Evolved as the anchor RAT • NGC, new NAS interface with RAN
Option 7/7a
N3
N1 N2
NGC
N2
UE
NR
NGC N3
NR
N3
S1-U
• E-UTRA as the ancho r RAT • EPC+ reuse S1 Interface
N1
N3
• NR as the a nchor RAT • Same NGC as Option 7X
• Standalone Mode • Same NGC as Option 7x/4x
Option 4/4a
EPC+
Option 2 5G Core (NGC)
•2017.Q4 (Rel-15 Phase1.1)
•2018.Q2~Q3 (Rel-15 Phase1.2)
•2019.Q4 (Rel-16 Phase2)
Early 5G Functions: • eMBB
Most 5G Functions: • uRLLC/mMTC • 5G MEC • Slicing
Full 5G Functions: • Non-3GPP Access • Indirect Access • NGC for IMS
• NSA NR in EPC+ (Option 3X)
• NSA E-eNB in (NGC Option 7X), NSA NR in NGC(Option 4X), • SA NR in NG system (Option 2)
Always a Convergent Core to bear 2/3/4/5G Access
DT Path: NSA(Opt 3x) -> Option 7(optional) -> Option 4->Option2 Evolution path 1
EPC S1-C
EPC S1-U
LTE eNB
LTE
S1-C
NGC
S1-U
LTE eNB
S1-U
gNB
Option3X
NG-C
NG-U
eLTE eNB
NGC
NGC NG-U
gNB
Option7X
NG-U
NG-C
eLTE eNB
NG-U
gNB
Option4
Evolution Path 2
•NSA for fast NR deployment
•Leading in NFV •eLTE + NGC to support uRLLC/mMTC •CP Anchor on LTE if NR with weak coverage •If with good NR coverage, option 7x can be skipped
•CP Anchor on NR with good NR coverage •C-band
NG-C
NG-U
gNB
Option2(NR)
3GPP Proposed 5G Core Architecture NG-User Data Part UDSF NEF
NRF
AUSF
SDSF UDM
NG-RTC
PCF AF
AMF
IMS based, real-time communication: voice/video/VR/AR
NG-IoT
SMF
…
NG-Packet Part UE
(R) AN
UPF
DN
-
AUSF: Authentication Server Function
-
NEF: Network Exposure Function
-
UPF: User plane Function
-
AMF: Core Access and Mobility Management Function
-
NRF: NF Repository Function
-
AF: Application Function
-
DN: Data network, e.g. operator services, Internet access
-
PCF: Policy Control function
-
UE: User Equipment
-
SDSF: Structured Data Storage network function
-
SMF: Session Management Function
-
(R)AN: (Radio) Access Network
-
UDSF: Unstructured Data Storage network function
-
UDM: Unified Data Management
-
RTC: Real Time Communication
5G Network is designed as Service Based Architecture
AMF: The anchor of 5G Core control plane
AUSF
NSSF
N13
UDM
•
Authentication Authorisation Slicing Mgmt N22 N12 N8 N10 (New:Non-3PP) (New) AMF
Access Mgmt N1
N14
N2
N11
SMF
N7
N15
Per User Policy Control N4 (New)
Mobility Mgmt UE
(R)AN
N3
UPF
N9
PCF
N6
DN
N5
AF
Inherit MME similar function
• Add new functions: Slicing Mgmt , Non-3GPP access, Policy control Per User and etc.
SMF: QoS Extension to support diverse service 5QI Resour Priority Value ce Level Type 1 20 GBR 2 40
Packet Delay Budget 100 ms
Packet Error Rate 10-2
Default Averaging Window TBD
Example Services
150 ms
10-3
TBD
Conversational Video (Live Streaming)
Conversational Voice
3
30
50 ms
10-3
TBD
Real Time Gaming, V2X messages
4
50
300 ms
10-6
TBD
Non-Conversational Video (Buffered Streaming)
65
7
75 ms
TBD
Mission Critical user plane Push To Talk voice (e.g., MCPTT) Non-Mission-Critical user plane Push To Talk voice
10-2 66
100 ms
TBD
20 25 10
50 ms 100 ms
10-2 10-2 10-6
60
300 ms
10-6
70
100 ms
10-3
300 ms
9
80 90
69
5
70
55
75 5 6
NonGBR
7
TBD N/A N/A
N/A
8
N/A 10-6
N/A
60 ms
10-6
N/A
200 ms
10-6
N/A
V2X messages IMS Signalling Vide o (Buff ered Strea min g) TCP-based (e.g., www, e-mail, chat, ftp, p2p file sharing, progressive video, etc.) Voice,Vide o ( Live S tre am ing ) Interactive Gaming Video (Buffered Streaming) TCP-based (e.g., www, e-mail, chat, ftp, p2p file sharing, progressive video, etc.) Mission Critical delay sensitive signalling (e.g., MCPTT signalling) Mission Critical Data (e.g. example services are the same as QCI 6/8/9)
•
Follows 3GPP LTE/EPC QoS principles (QCI…)
•
It is starting point for definition for Standardized 5QI to QoS characteristics mapping, this table will be extended to support service requirement for 5G (E.g: during 3GPP SA2 meeting in Ljubljana on 23-102017 4 new QCI proposals to be added into R15 for uRLLC (under discussion in 3GPP)
Native Support of Edge Computing AMF/SMF/ PCF/AF…
Central
Central UPF
Support Local Routing & Traffic Steering
Central DN
Select UPF close to UE/DN Local/Edge
Local/Edge UPF
RAN
•
Local/Edge DN
UE1
Local/Edge UPF1
Local/Edge LADN 1
RAN (Incl.TA1,TA2…) LADN1 Service Zone
UE1
Local/Edge LADN2
RAN (TA101……)
UE3
Local/Edge UPF2
RAN (Incl.TA11,TA12…) LADN2 Service Zone
UE2
Local/Edge UPF can be selected based on the UE's subscription data, UE location, the information from AF, policy or other related traffic rules.
Support Local Area Data Network (LADN) •
The access to LADN is only available in a specific area. A LADN service area is a set of Tracking Areas.
Network Slicing with 3 typical Slice/Service type A network slice comprises E2E resources : • the Core Network CP &UP • the NG RAN or N3IWF to non-3GPP Access An S-NSSAI (Network Slice Selection Assistance Information) identifies a Network Slice. An SNSSAI is comprised of: • A Slice/Service type (SST), which refers to the expected Network Slice behaviour in terms of features and services; • A Slice Differentiator (SD), which is optional information that complements the Slice/Service type(s) to differentiate amongst multiple Network Slices of the same Slice/Service type. Slice/Service type (SST) eMBB (enhanced Mobile Broadband) URLLC (ultra- reliable low latency communications) MIoT (massive IoT)
SST value 1
Network Slice Slice Selection Selection Function Function (SSF) (NSSF)
1.Registration to Network Slices UDM
CP NFs for Slice A
UP NFs for SliceA
AN
AMF
CP NFs for Slice B
U P NFs for Slice B
AMF CP NFs for Slice C
2. Establish PDU session(s) to the DN via Network Slice Instance(s). Network Slice A
Network Slice B
2 UP NFs for Slice C
Network Slice C
3 Note: More detail will be discussed in R16
Redefined the Date Storage architecture Unstructured Data Any NF
N18/Nudsf
UDSF
UDSF: Unstructured Data Storage Function (e.g. UE contexts) •
UDR
The 5G system architecture allows any NF to store and retrieve its unstructured data into/from a UDSF
Structured Data
UDM FE
Subscription Data
UDM: Unified Data Management (e.g. subscription data ) Nudr
Policy Data
NEF: Network Exposure Function (e.g. exposure data data )
PCF FE
Structured Data for exposure
NEF FE
PCF: Policy Control function (e.g. policy data data )
Application Data
UDR: Unified Data Repository •
The Nudr interface is defined for the network functions, such as UDM FE, PCF and NEF, to read, update (including add, modify), delete, subscribe to notification of data changes and notify the data changes from the UDR (Unstructured Data)
VoLTE Is Basis for 5G NG-RTC Evolution 4G
5G Key concerns
VoLTE (Mainstream)
5 options of VoNR
IMS
• SA vs NSA • 2/3G IoT or not • Dual connectivity or not
MSC
EPC
1 Simplified
LTE
2/3/4/5G coexist, how to realize easy operation & maintenance
•
How to leverage efforts of VoLTE deployment, protect investment
•
VoLTE over eMTC
•
Video calling
2 Efficiency 3 New services
GU
•
SRVCC
IMS based VoNR is optimal choice NSA Networking
CSFB (optional)
SA Networking IMS
EPC+
Lesson: VoLTE isn’t deployment
in day one of LTE, huge network adjustment effort
LTE
NR SRVCC
IMS+ MSC
EPC+
NGC
MSC
GU
LTE
NR
GU
PS HO
Content • • • • •
•
• • •
Huawei 5G Core Network: One Core integrates one network as the target
Cloud-based core network
Distributed core network
Software architecture ready
Network architecture ready
5G network
CGW Global DB Cloud USN
Cloud UGW
Cloud PCRF
AMF
RGW
CloudOS Edge DC
CloudNative
Metro DC
Industry-leading three-layer cloud architecture
•
300+ sites worldwide, 34 million online users,
architecture is ready, and the network is flattened to
and 1.5T traffic, accounting for 60% projects
improve service experience and network efficiency.
worldwide.
•
Industry's first CU separation solution: The 5G
First version upgrade in the industry: A/B test
and service latency.
AUF
PCF
SDM
Metro DC
Region DC
Natural evolution (5G) •
Cloud-based software supports NSA and supports a single user with a large bandwidth of 30Gbps.
Global/local DB layered data deployment meets the requirements for centralized management of 5G data
•
Edge DC
Region DC
•
NEF
Service-oriented architecture
4G network 5G •
SMF
DGW Local DB SBC
…
•
Worldwide first slicing proof of concept
deployments
5G Core must be cloud-based, and investment cloudification is the investment in 5G Challenge
Solution
Customer pain points: 1: cannot evolve to 5GC. Traditional EPC upgrade cannot smoothly evolve to cloud-based 5GC. Unable to evolve
Traditional EPC
NSA EPC+
4G
5G
Traffic
• CUPS •
Customer pain points: 2: investment is not protected, 4G to 5G traffic increases by 10 times, and user plane based on cloud capacity expansion is the only choice for investment protection.
GW-U+ Capacity expansion
• Gray upgrade
5GC
Cloud MME+
10 times
• Stateless Design
High maturity of NFV commer cial use
…
Cloud GW-C+ 5GC
GW-U+
Capacity
Cloud
Cloud
expansion
GW-U+
GW-U+
Huawei 5G Core Network: Ensuring Smooth Evolution Control Domain
Gateway Domain
SMF
AMF MME+ CloudMME+ MME Pool
MME+
vGW-C
vGW-C
NGC Pool AMF UPF
CloudMME+
Step one: Three-dimensional hybrid group pool, NSA free of bidding - grasping hands: NSA RAN Traffic Distribution Failure Step two: vMME+ smooth upgrade convergence node - grasping hands: Handover saving 40%/ delay 30%
PGP GW-U
PGP GW-U
Step one PGP supports C/U separation and introduces cloud-based GWC.
GW-U
Step two Smooth upgrade of converged nodes (standard definition)
•
Cloudified: The live network supports NSA and EPC->EPC+.
•
Not cloudified: Optimized proactive cloudification, inventory upgrade, and new cloud-based linkage, (v) MME-> (v) MME+, and new vUGW.
Huawei 5G Core Network: Control and User Plane Separation CGW UGW
Signaling Control
Policy Control Signaling Control IP Address Assignment
LI
IP Address Assignment
Control Plane
LI
CGW – Deploy in Center • Centralize interfaces • Simplify operation and network architecture
Charging
Sx
Charging
DGW – Deploy in Metro
DGW
SA Forwarding
OCS AAA CG PCRF …
Policy Control
User Plane Sx
Charging Statistic
Service Control
Gi-LAN
LI SA
Internet
• Offload traffic to local network, improve user experience • Saving backbone bandwidth
Forwarding
Enable Network Elasticity • Expand user and control plane separately RGW – Deploy in Edge
LBO Charging Statistic
Enhance Network Operation • New UP with minimal configuration
3GPP CUPS
MEC
RGW
Enhance Network Flexibility • Flexible user plane NE deployment
Service Control
SA Forwarding
LBO
mCDN
• MEC: Intelligent Venues/Enterprise BYOD/mCDN • Located on network Edge, LBO
2015Q3
2016Q2
2016Q3
2017Q1
CUPS SI
CUPS WI
CUPS SA2 Freeze
CUPS Stage3 Freeze
Huawei 5G Core Network: NSA EPC+ Key Features eMBB
WTTX
FWA
0. EPC functionalities • All
CloudEPC+
1
3
2 NSA NR Access
High Throughput
4 Low Latency
Control/User Plane Split
Enhancement: 1.
0
NSA NR Access •
EPC Functionalities
2.
3.
4. LTE
NSA-NR
Single user throughput: 20Gbps
Low Latency •
LTE
NSA-NR option 3/3a/3x support
High Throughput •
LTE
Existing 2/3/4G service support
Latency of CN : 0.5-1ms (E2E latency: 5-10ms)
CU Split •
GW-Control Plane and User Plane split
•
MEC Deployment
Huawei 5G Core Network: The NSA capability is fully ready, and the solution is leading in a comprehensive manner 5G
4G
Monthly package release and The NE package is released in half a year and Version B automatic registration is manually installed.
Best experience • 30Gbps for a single user, ranking No. 1 in the competition
• On-demand traffic scheduling, leading the performance
Performance First
Full automation
Service rollout speed: six months to one month • Automatic NE deployment to automatic network deployment (NRF+) • NE management to microservice lifecycle management
of 30%
Pool of the same vendor IoT slice eMBB slicing
Flexible slicing
Enable vertical industries • Automatic slicing deployment: Mapping tenant SLAs to network deployment
• Core network automatic slicing (core network independent slicing +RAN Qos)
Core network on the live network
Inventory stickiness
Cloud Core
Software upgrade NSA Maximize return on investment (ROI) • Reuse of traditional devices and hybrid pool of cloud devices from the same vendor
Huawei NSA HSS/PCRF+: Key Features eMBB
WTTX
FWA
0. HSS/PCRF+ functionalities • All
Cloud HSS/PCRF+
1
2 NSA NR Access
High Throughput
Enhancement: 1.
0
EPC Functionalities
2.
LTE
Existing 2/3/4G service support
LTE
NSA-NR
LTE
NSA NR Access •
NSA-NR option 3/3a/3x support
•
Dual connection authorization
•
(e)Decor
High Throughput •
Single user throughput: 10Gbps UL, 20Gbps DL
•
Single APN throughput: 10Gbps UL, 20Gbps DL
•
Single Service: 10Gbps UL, 20Gbps DL
Programmable Data Location and Data Model Today Central Sites
eMBB Slice
uRLLC
Provisioning
Provisioning
HSS/UDM/AUSF
HSS/UDM/AUSF
PCRF/PCF
PCRF/PCF
HSS Latency ~30ms
PCRF
User Data Anchor
User Data Anchor
AMF/SMF PGW-C/SMF
Distributed Sites
Latency ~10ms
HSS/UDM/AUSF
AMF/SMF
PCRF/PCF
PGW-C/SMF
Low Latency Instance GW-U/UPF GW-U/UPF
• • •
Unified HSS/UDM/AUSF for user profile management, authentication management Unified PCRF/PCF for user policy control, bridge between application(e.g. VoLTE ) and package network Data instance can be pull/push to distributed sites for low latency service
Converged Policy Center Evolution Data collection
Application Function (AF)
Online Charging System(OCS)
N5 (Modify from Cx)
Psy (Modify from Sy)
Network Data Analytics
Network Data Analytics (NWDA) PCF
N23 (New Interface)
N23
Action
Converged Policy Center N7(Modify from Gx)
SMF)
N15 (New Interface)
AMF
SMF
Close Loop Control SPID Decision
PCF
• • •
Multi access policy control:2/3/4/5G/FMC End to end policy control : UE/access GW/SDN Multi service policy control :FBB/MBB/Video/IoT/WTTX
N15 N1
AMF
Access Report & Control
IMS: Based on Large-Scale IMS Evolution, Constructing the enhanced IMS Network Architecture for the Industry Key Features
cPaaS API openness
cPaaS API openness
New service
cPaaS Openness Enabling Service Innovation C lo ud i nf ra st ru ct ur e AP I
C om mu ni ca ti on A PI
Network slicing supports highly
ATS9900
reliable private network deployment.
Industry RTC expansion service Control plane
IMS+ (CSCF, AS, SBC-U…)
CSC3300
Media analysis
IMS
BCF
IWF
AAS
Interconnection and interworking
MAF
MMF
Differentiated SLA Service enhancem ent
New architecture
Media plane
Reconstruct the control plane as a service. Agile iteration
Flexible deployment
C/U separation and distributed media plane deployment High bandwidth
SBC
enhanced IMS
Access Registration Management (SBC-C)
RTC slice selection
New air interface
Low latency
Vo5G NSA
EPC/LTE
New NE/Service
4G terminal
Reconstructing Existing NEs
EPC/LTE
SA
5GC/NR
3GPP R15: Vo5G
As-is
4G terminal
Industry terminal
5G terminal
•
Vo5G Reuse IMS
•
Do not provide direct interaction between 5G and 2G/3G voice services at the bottom of 4G networks.
To-be
Solution: Three steps: Based on the IMS evolution of the large network, develop the RTC slice in the industry to help carriers Go Vertical:
(one) Splitting the SBC SBC-C, SBC-U (two) Unified registration processing and unified entry SBC-C for multiple slices, simplifying terminal RTC multi-slice i mplementation
3GPP R16: enhanced IMS / NG-RTC •
In progress: enhanced IMS eight "scenarios" In progress: enhanced IMS "Architecture"
Huawei 5G Core Achievement
“Best Technology Enabler”
“Best 5G Core Development”
“Best Edge Computing Technology”
“Best Vertical Application”
2017, MWC
2017, 5G World Summit
2017,MEC World Summit
2017, SDN/NFV Congress
Award Winning
Continuous Innovation in 5G Core
Strategic Investment in 5G Core Era
Industry First Network Slicing
Industry First 5G MEC
Industry First SBA Demo
@MWC,with DT
@MWC,With VDF
@PT Expo China ,With CMCC
2016/2017
500+ R&D Engineers
2017
2017
6
No.1
R&D centers
Contribute to 3GPP / ETSI NFV / OPNFV
Shanghai, Beijing, Shenzhen, Xi’an, Hangzhou, Bangalore
Huawei actively promoting the unification of 5G standard 3GPP Working Group Structure
Chairman of SA2: Frank Mademann
SA: Service & System aspects
CT: Core network and terminals
SA WG1 Services
CT WG1 MM/CC/SM (Iu)
SA WG2 Architecture SA WG3 Security SA WG4 codec
CT WG3 Interworking with external networks
Chairman of CT: Georg Mayer
CT WG4 MAP/GTP/BCH/SS
SA WG5 Telecom management
Vice Chairman of SA5: Christian Toche
SA WG6 Mission critical applications
CT WG6 Smart card application aspects
Vice Chairman of CT4: Peter Schmitt
Huawei 5G Core Finished IMT2020 5G System Test in Advance Test Four Key Features
Low Latency
Massive IOT
High Bandwidth
….
5G Core
Huawei
SBA • Network function decomposition • New HTTP Interface • Function Registration/De-Registration • Scale In/Out
SA Procedure • Mobley Management • Session Management • Service Request
Ericsson
DaTang
Nokia
Sep 2017, IMT 2020 5G Advance Group (China) Test Phase2
Network Slicing • Slicing Whole Life Cycle Automatic Management
MEC • ULCL LBO • Service Chain • 3rd Application Hosting
User Case: Showcase World Frist SBA Prototype with CMCC Agile • Independent Life Cycle Management • Function Decoupling
Efficiency • Interfaces as Services • Service Governance and Orchestration • Stateless Design
Service Base Architecture
Openness • •
Third-party Services Integration Network Capability Exposure @MWC Shanghai 2017
User Case: 5G MEC Joint Innovation with VDF UP Qos
TCP opt.
GTP
Charging
Low Latency Slice
Car Srv.
CP
MM
SM
Qos
Policy Access
ULL-SCHD
Cloud OS
Edge DC
Central DC
General Slice
CloudMME
• MEC Achieve ~1ms Low Latency • Cloud Native Architecture Achieve Agile, Elastic, Effiency Network
CloudUGW
Cloud OS
Central DC
Car Server
User Case: Joint Exploration of 5G E2E Slicing 5G NR + 5G Transport + 5G Core + 5G BSS/OSS @MWC 2017
@MWC 2017
Latency 1 ms
Throughput 1Gbps
E2E Latency
Per Connection
Ultra Low Latency Scheduled
Mutil-Access Edge Computing
E2E Guaranteed Low Latency
Intelligent Detection
Close-loop Latency Control
Seamless User Experience
Unify Authentication
Access Agnostic
Content • • • •
Proposal for STC: Smooth Evolution to 5GC Starting From 4G Proposal consideration: Protect Investment, Smooth evolution to save migration effort
2018 Architect Ready/EPC Cloudification
2018 NSA Support
Hybrid pool USN USN EPC
USN USN EPC
USN USN
EPC
EPC
Protect Investment:
CloudEPC for 4G Expansion
CUPS for evolution to 5G
Hybrid pool for smooth evolution and investment protection
Hybrid pool
Hybrid pool
LTE
•
2019+ NGC for full 5G Functions
EPC+
LTE
NR
NSA features: high throughput per service,
LTE
Fast launch eMBB service with only software upgrade to lead the market
NR
Any Access
CloudEPC functions/architecture inherited with additional NGC functions
option3 access
EPC+, AMF, SCF, UPF
Software upgrade to NGC with converged core solution
Huawei – STC 5G Engagement Plan 2017
2018 Q2
2018 Q4
NSA (3GPP Rel 15 ph1)
eMBB
EPC
MEC
NFVI
MBB
(EPC+)
trial
CUPS
Telco Cloud (NFVI)
eMBB (EPC+)
CUPS Mass Deployment regional sites
Telco Cloud (NFVI) (Nat / Reg)
2019 Q2
2019 Q4
2020
SA (3GPP Rel 15 ph2)
5G SoC
5G SoC
(ph1.2) trial
(ph1.2)
User Plane
5G MEC
Consolidation
UPF
Edge Sites
Rel-16 5G trial
Takeaways Basics
Value Technology Evolution Partner Huawei Leadership
Cloud is essential first step towards 5G core. It is mast for STC to continue transformation of infrastructure to ETS NFV compliant.
Enable All Access, Enable All Services
SBA, Distribute ,Slicing, Converge
Architecture Go Frist, Cloud Native Make Software Architecture Ready CUPS Make Network Architecture Ready
Transformation into IMT2020 envisioned telecom will be long undertaking. Here, identifying key long-term partner is critical.
Huawei has proven it’s thought leadership and pioneering engagements in area of 5G. Many industry firsts.
STC – Huawei Partnership
Achieving Saudi 2030 Goals Together
Short-term:
Mid-term:
Network Cloudification
Distributed Network, 5G NSA
Flexible infrastructure STC selected Huawei as trusted partner for NFV application deployments
Agile network for fast growing business
: Distributed architecture based on Metro level for latency & bandwidth critical services
Long-term: 5G SA Continous partnership on 2020+ newly defined business cases.
3-layer based DC deployment