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Transcript 
ITU/BDT Regional Seminar on
Costs and Tariffs for Member Countries
of the Tariff Group for Africa (TAF)
Midrand, South Africa,
28 June-1 July 2005
Migration towards NGN
Oscar González Soto
ITU Consultant Expert
Strategic Planning and Assessment
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 1
Migration towards NGN
Content
• Key factors
for the evolution towards NGN
• Services and revenue motivations.
• Network architecture consolidation at transit, local
and access levels
• Topology and migration
• Network optimization based on planning methods and
• Support to Network
June 2005
tools
Design
ITU/BDT Migration towards NGN - O.G.S.
- slide 2
Network Architecture towards NGN
Key Factors: Motivation
• New services and revenue increase with multimedia services:
- Compensate voice revenue reduction and increase BB related
business
• Cost reductions by sharing network infrastructure and systems
- Savings are a function of network scenario, equipment
modernization status and customers grow speed
• Simplification of O&M, thus lowering OPEX
- Integrated operation platforms, maintenance and training
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 3
Network Architecture towards NGN
Key Factors: Issues to care
• Ensure service and business continuity for existing customers.
• Introduction of new services based on profitability
• Interworking with existing PSTN and other operator's networks
• QoS for guaranteed services and critical business customers
• Tariff principles as a function of market demand and consumption of
network resources (Backward Cost Assignment)
• Universal Service Obligations for basic services and internet
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 4
Network Architecture towards NGN
Key Factors: Questions
• When to start network migration ?
• Short term versus long term versus combined per network segment
• Where to start ?
• Access versus local versus transit versus applications
• How to perform migration ?
• Overlay versus substitution versus new sub-networks at growing areas
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 5
Network Architecture towards NGN
Key Factors: Country Status
• Diversity of Geo-scenarios in customers density and development
level: homogeneous versus heterogeneous
• Development level for accessibility, fixed services, mobile services
and video
• Aging of installed equipment for Outside Plant, Transmission and
Switching
• Competition level for fixed and mobile services
• Regulatory status
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 6
Network Architecture towards NGN
Content
• Key factors
for the evolution towards NGN
• Services and revenue motivations
• Network architecture consolidation at transit, local
and access levels
• Topology and migration
• Network optimization based on planning methods and
tools
• Support to Network Design
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 7
Network Architecture towards NGN
Architecture Consolidation: Topology
Topological changes impact on infrastructure and are slower
to implement than technology substitution
• Less network nodes and links due to the higher capacity of systems
(one order of magnitude).
• Same capilarity at access level due to identical customer location
• Topological connectivity higher for high capacity nodes and paths for
security
• High protection level and diversity paths/sources in all high capacity
systems, both at functional and physical levels
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 8
Network Architecture towards NGN
Architecture Consolidation: Topology
What changes from current scenario towards target network ?
NMC
SCP
OSS
SS7
Mob
LEX/TEX
NAS
TDM
Services
Softswitch
Control
Distributed Switching
Transport/Media
Data
ATM/IP
Access
gateway
Packet
Network
IP/MPLS/CAC
LEX
Access
gateway
PCM
RSU
POTS
Trunk
gateway
Other
Networks
Access
gateway
DSL
MUX/DSLAM
ISDN
Wireless
gateway
DLC
HDSL/XDSL
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 9
Network Architecture towards NGN
Architecture Consolidation: Topology
TRANSIT NETWORK
NATIONAL
NATIONAL LAYER
REGIONAL
REGIONAL LAYER
LEX
LAYER
RU
LAYER
NATIONAL/REGIONAL Single-layered
Single-layered
LAYER
LAYER
TRANSIT
TRANSIT NETWORK
NETWORK
Customers LAYER
Structure
Simplification
LEX/GW
LAYER
RU
LAYER
Customers LAYER
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 10
Network Architecture towards NGN
Architecture Consolidation: Access
Access dominated by physical infrastructure cost and
deployment time
• Quick deployment of DSL and Multimedia Services
• FO closer to customer when implementing new outside plant or
renovating existing one
• New Wireless technologies for low density customer scenarios
• Shorter LL length than classical network to be prepared for high
bandwidth Multimedia services
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 11
Network Architecture towards NGN
Architecture Consolidation: Wireline Access
Typical historical Access Network structure
Local: ~ 40 km
Distribution: mean value ~1,7 km
Drop: mean value ~300 m
branching cables
.
.
main cable
SDF
SDF
drop line
.
.
FDF
SDF
NTBA
MDF
SDF
LEX
drop line
LEX
MDF
FDF
SDF
June 2005
Local Exchange
Main Distribution Frame
Feeder Distribution Frame
Subscriber Distribution Frame
ITU/BDT Migration towards NGN - O.G.S.
- slide 12
Network Architecture towards NGN
Architecture Consolidation: Access evolution
Typical Access Network evolution
Local: ~ 40 km
Distribution: mean value ~1,7 km
Drop: mean value ~300 m
branching cables
SDF
.
.
FO
SDF
.
DLC
drop line
.
.
.
SDF
NTBA
Optical
Interface
DLC
drop line
LEX/GW
LEX
GW
MDF
DLC
SDF
FO
.
.
Local Exchange
Gateway
Main Distribution Frame
Digital Loop Carrier
Subscriber Distribution Frame
Fiber Optic
DLC
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 13
Network Architecture towards NGN
Architecture Consolidation: Local
Dominated by functions migration investment and
interoperability
• Move from joint switching and control to separated control and media
GW
• Introduce Multimedia Services at all areas
• Optimize number, location of nodes and interfaces among existing and
new network
• Requires longer time and higher investments due to variety of geoscenarios and geographical distribution
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 14
Network Architecture towards NGN
Architecture Consolidation: Local
Softwitches/ MGCs
located in few sites
Packet
mode
network
Trunking
gateway
TEX Layer
Trunking
gateway
Access
gateway
IP links
Access
gateway
LEX Layer
Exchange A
June 2005
ITU/BDT Migration towards NGN - O.G.S.
Exchange A
subscriber
“Growth”
- slide 15
Network Architecture towards NGN
Architecture Consolidation: Core
Dominated by high capacity and protection level
• Overlay deployment for full coverage in all regions
• Quick deployment needed for homogeneous end to end connections
• Strong requirements for high quality, protection, diversity paths and
survivability
• Importance of the optimization for location and interconnection
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 16
Network Architecture towards NGN
Architecture Consolidation: Core
Softwitches /MGCs
in few sites
Regional Level
Trunking gateway
in each regional
site
IP links
Packet
mode
network
short
distance
LEX Layer
Local Exchanges
Remote Units
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 17
Network Architecture towards NGN
Architecture Consolidation: Core
Softswitches/MGCs
located in few sites
IP links
Long
distance
Packet
mode
Regional layer
network
Trunking gateway
in each local site
LEX Layer
Local Exchanges
Remote Units
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 18
Network Architecture towards NGN
Architecture Consolidation: Combined Segments
Where to start and how to co-ordinate migration?
Network “consolidation”
Cost Optimisation of the network
- Reducing nodes and increase their capacity
- Deployment of ADSL and multiservice access
Network expansion
NGN solution :
- Cap and Grow; this means keeping the existing PSTN network as it is, and grow
demand with NGN equipment
Network replacement
Replacement of out-phased (end of life) TDM equipment
- gradual replacement : this means coexistence of the two technologies
- full accelerated replacement with a short transition period
Need to optimize overall network evolution: technically and economically
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 19
Network Architecture
towards
NGN
Smooth
Smooth
migration
migration
to NGN
to NGN
Architecture Consolidation: Combined Segments (I)
RSP
DS
IN
PSTN Class 4
Data
Mux
SSP
Multiservice
Node
International
Core
Core
PSTN Class 5
Subscriber unit
Edge
Access
Customers
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 20
Network Architecture towards NGN
Architecture Consolidation: Combined Segments (II)
Softswitch
NGCR
Optical
NGER
International
Core
AGW
Core
Associated
TK GW
MM
Edge
Multiservice
node
Subscriber unit
Access
Customers
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 21
Network Architecture towards NGN
Architecture Consolidation: Combined Segments
Overall impact of evolution on network CAPEX and OPEX
CAPEX
OPEX
•
TDM and NGN CAPEX are
close
•
OPEX in NGN trends to be
lower
•
NGN CAPEX in the first
years driven by geographic
coverage
•
•
Access systems represent a
large part of CAPEX
Migration scenarios will have a
mix of TDM OPEX (installed
base) and NGN OPEX
(substitution and growth)
•
Significant impact of
manpower cost due to
convergence in operations
– similar values in TDM
and NGN
Key factors for the evaluation: Geo-scenarios, Network grow rates,
Aging of equipment, New services
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 22
Network Architecture towards NGN
Architecture Consolidation: Scenario evaluation
•
Net Present Value (NPV) for the overall migration project is the
best global evaluator
NPV for C4 Scenario in alternative A
NPV for C5 Scenario in alternative B
50 000
20 000
15 000
-
10 000
-
(10 000)
2005
2006
2007
2008
(50 000)
5 000
(5 000)
2004
2004
2005
2006
2007
2008
delta CAPEX
Opex savings
(100 000)
delta CAPEX
Opex savings
cumulated DCF
cumulated DCF
(150 000)
(15 000)
(20 000)
(25 000)
(200 000)
(250 000)
A large variety of country scenarios and transition strategies generate major
differences in the economical results
Planning to be performed per
country and operator
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 23
Network Architecture towards NGN
Content
• Key factors
for the evolution towards NGN
• Services and revenue motivations
• Network architecture consolidation at transit, local
and access levels
• Topology and migration
• Network optimization based on planning methods and
• Support to Network
June 2005
tools
Design
ITU/BDT Migration towards NGN - O.G.S.
- slide 24
Network Architecture towards NGN
Support tools: Design and Optimization
Required functionality for Technical design tools
•
Service demands characterisation and traffics for VoIP and NGN multiservice flows
•
Conceptual Network Design and Capacity Planning
•
•
Comparison of different network structures
Routing flows for most typical cases including OSPF, shortest path, widest path and weighted cost
functions.
•
Optimizing locations and connections of network gateways
•
Cost, Performance and Reliability Analysis
•
Estimation of investment costs for the rollout and the extension of the investigated multi-service
network
•
Estimation of end-to-end delays
•
Technical Site and System Planning
•
Allocation of the IP or MPLS links
•
Formation of virtual networks
•
Routing over ATM links or PDH/SDH systems or tunneling via other IP links
•
Sub-networking and addressing
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 25
Network Architecture towards NGN
Example of Design Supporting tools
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 26
Network Architecture towards NGN
Example of Design Supporting tools
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 27
Network Architecture towards NGN
Example of Design Supporting tools
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 28
Network Architecture towards NGN
Example of Design Supporting tools
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 29
Network Architecture towards NGN
Example of Design Supporting tools
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 30
Network Architecture towards NGN
Summary of Evolution Factors
• Ensure service continuity
• Plan business and services first, later the network with
proven solutions.
• Implement pilot cases before network migration
• Differentiation to competitors on new services and quality
June 2005
ITU/BDT Migration towards NGN - O.G.S.
- slide 31
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