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1
Understanding the Role of IMS and NGN
Christie Alwis B.Sc (Eng) Hons, FIE (SL), MIEE, C.Eng (Lond)
Advisor to CEO- Sri Lanka Telecom
Next Generation Networks 30 Oct to 1 November 2007 @ Hilton Hotel, Singapore
• Social Paradigm Shift and its impact to the telecommunications
• Future revenue drivers of telecommunications
• Network Evolution to suit for Paradigm Shift
• IT Roadmap for Future Vision• Satisfying the future customer needs with
the Next Generation Convergent Networks
Maj
or T
opic
s C
over
ed
2
1. Introductory Background1. Social Paradigm Shift2. Communication Networks3. Communication Network Paradigm Shift4. Development in Access Network5. Technological/Service Paradigm Shift
2. International Demand Patterns & Observations1. Global Capacity Trend2. Current Estimated Capacities between Continents3. Internet Usage4. Lit Submarine Cable Capacity Trends by Route, 1999-20065. Matching the Demand with Available Facilities6. Major Paradigm Shift7. Most Promising Future Technology and where it applies
3. Evolution of present network for future1. Characteristics of present network2. Future convergence trends of communications
4. IP Multimedia Subsystem1. What is IMS ?2. IMS standards convergence
5. Next Generation networks1. What is NGN ?2. Future Communications Network3. NGN Architecture Design Principles4. Why IMS in NGN ?5. Evolution of core network towards NGNC
onte
nts
6. Adoptability of Access Networks towards NGN1. Bandwidth requirement of access networks2. BB Network Supply and Content Demand3. Examples of Contents – IPTV and case study4. Evolution of today’s Broadband Wireless Access systems
7. Chapter 7: Migration of RAN to 4G1. Migration between generations2. Comparison of 3G and 4G Parameters
8. Synchronizing Customer needs to the Network Evolution of 21 Century
1. Present Customer Complexity and intended future simplicity 2. Drivers that make Customer to utilize the New Networks
• ICT Solutions• E.g. of BT in NHS • Problems in developing countries
9. IT Roadmap for Future Vision1. Present Legacy Applications2. Operators’ Future Expectations3. Readiness for IT for NGN – OCBE Concept4. Overall Transformation
10. Conclusive RemarksCon
tent
s
3
Sociological Paradigm ShiftPast – Present - Future
• Past– Agriculture Revolution– Industrial Revolution
• Present– Communication explosion
• Future– Transport Revolution– Energy Revolution
Chapter 1Introductory Back Ground
What is Communication Network
Undersea Optical Fiber Networks
Country A
Country B
Domestic Transport Network (OF,
International Transport Network
IG
IG
Local Area Node
Both Domestic and International Transport will be on Optical Fibers. And Switching Nodes will be on NGN.
4
Basic Components of Communication Networks
• Following 8 major components can be identified– Geographical Location & Terminal – Access Networks– Local Exchange– Domestic Transport Network– International Exchange– International Transport Network– Other Country International Exchange– Other Country Domestic Network (With the similar
components as above)
Communication Network Paradigm Shift
• Present– Transport Network
• OF– Access Network
• Shift from Copper to Radio (3G, EvDO) & Fiber• Immediate Future
– Shift from Radio/OF to Power Line Communication System (PLC) depends upon which revolution comes first in future i.e. Transport or Energy (If energy comes first, access will not be PLC, but radio & OF)
– Hence most promising access network for next 10y will be either Radio or OF or PLC. Cu network will gradually phase out.
– Most promising transport network will be OF especially undersea OF cable systems
5
Development of Access Network• Access Network is developed to accommodate integrated services
such as Internet, IPTV, Data with Voice
• Radio Options: 3G, EvDO, WiMAX• xDSL, PON, and PLC
Power
TV
Telephone ?
3G, EvDO
cdmaOnecdmaOne
GSMGSM
TDMA TDMA
2G
PDC PDC
CDMA2000 1x
CDMA2000 1x
First Step into 3G
GPRSGPRS 90%
10%
EDGEEDGE
WCDMAWCDMA
3G phase 1 Evolved 3G
3GPP CoreNetwork
CDMA20001x EV/DOCDMA20001x EV/DO
HSDPA/HSUPAHSDPA/HSUPA
Expected market share
EDGEEvolution
EDGEEvolution
CDMA2000EV/DO Rev A
CDMA2000EV/DO Rev A
6
FTTH, PON
Power Line Communication System
7
Accommodating Paradigm Shift to Customer Premises
• One terminal• Will stay for 10y independent of Network
shift
Voice Data Video Energy
Convergence of Telecommunication
Technological/Service Paradigm ShiftAll the technological development on Access and Transport will lead to customers to shift from traditional voice services to IP based data services without their knowledge
Any TIMEConnection
Any PLACE Connection
Any THINGConnection
• Night
• Daytime
• On the Move
• Indoors & Outdoors
• Indoors
• Outdoors
• On the Move
• PC to PC• Human to Human (H2H)
• Human to Thing (H2T)• Thing to Thing (T2T)
Supportive Stuff: ITU Internet Reports 2005
Probable implementation: From now to Year 2010
8
Major Paradigm Shift
• Increased Customer Expectations, Demand Growth
• Lowest Cost, Huge Bandwidth and Durability• Technological Advancement (More Lambdas per
Fiber - DWDM, 10G/lambda, Repeater Less Systems)
• Improved Quality of Service Diversification
Chapter 2International Demand Patterns &
Observations
Demand Growth
• Global Capacity Trend• Current Estimated Capacities between
Continents• Internet Usage• Lit Submarine Cable Capacity Trends by Route,
1999-2006
9
Global Capacity Trend
225.00%100.00%17.84%1,173100.00%6,575WORLD TOTAL
146.7%1.6%54.5%190.5%34Oceania / Australia
508.6%9.4%19.8%1108.5%557Latin America/Caribbean
115.2%19.8%69.5%2335.1%335North America
494.8%1.7%10.1%202.9%193Middle East
206.2%27.4%39.8%32212.3%810Europe
282.1%37.2%11.8%43756.5%3,713Asia
643.1%2.9%3.6%3414.2%933Africa
Usage Growth 2000-2007
Usage % of World
% Population ( Penetration )
Internet Usage, Latest Data (Million)
Population % of the World
Population (Est 2007) Million
World Regions
WORLD INTERNET USAGE AND POPULATION STATISTICS
Source: www.internetworldstats.com
Current Estimated Capacities between Continents
North America
335 Million
Latin America/
Caribbean
557 Million
Africa
933 Million
Europe
810 Million
Asia
3.7 Billion
Oceania/
Australia
34 Million
Middle East
193 Million
8Tbs
12Tbps6Tbps
5Tbp
s
6Tbps
9Tbps
2-3Gbps
10
© PriMetrica, Inc. 2006
© PriMetrica, Inc. 2006
TeleGeography research
Notes: Capacity figures denote lit, protected capacity at the end of the respective year. Capacity for 2004 is projected based on capacity upgrade announcements and new cable construction information as of March 2004. Capacity for 2005 and 2006 is projected assuming cables with upgradeable capacity will increase total capacity 20 percent each year until fully upgradeable capacity is achieved. Intra-Asia capacity includes cables with landings in both Hong Kong and Japan. Trans-Pacific capacity excludes Southern Cross and PacRim East. Trans-Atlantic capacity excludes Atlantis-2. Cables retired prior to year-end 2004 are excluded from Fully Upgraded capacity. Fully upgraded capacity is based on system design capacity.
251 88 73 61 61 41 31 31 21 Europe-Africa-Asia
5,166 749 638 518 513 303 293 213 13 U.S.-Latin America
15,810 802 670 560 560 560 560 40 25 Intra-Asia
6,503 1,457 1,231 1,043 1,043 1,043 263 183 43 Trans-Pacific
12,298 2,983 2,642 2,338 2,338 2,022 1,843 533 163 Trans-Atlantic
Fully Upgraded20062005200420032002200120001999Region
Lit Submarine Cable Capacity (Gbps)
Lit Submarine Cable Capacity Trends by Route, 1999-2006
11
Matching the Demand with Available Facilities
• Inter-continental traffic appears to be comparatively lower than the already installed designed capacity
• Certain segments are saturated with designed capacity.– E.g. Traffic via Middle-East from Asia to
Europe– This indicates the market trend in Asia and
Middle East is much faster than Africa
Most Promising Future Transport Media and where it applies
• Transport: Optical Fiber (Especially for International transport Undersea cable)
• Huge development in Asia and Asia towards Europe
• The technology used in the Optical Fiber will be changed from TDM (Time Division Multiplexing) to IP
12
Identify the Correct Investment Time
Time
begin investment before decline
Begin investment during decline
Demand
Equivalent SLT Activated Traffic and Trend
0
500
1000
1500
2000
2500
3000
3500
4000
1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010
No. of E1 EquivalentTrend in Exponential Trend in Linear
Num
ber o
f E1
Circ
uits
Sri Lankan Experience
In Sri Lanka the activations appears to be exponential
13
Global Evolution of Technology• Presently Services such as Telephone, Internet, TV is having separate
networks and sometimes separate access networks to the Home. This paradigm will be shifted to a unified equipment to provide all the services through one access network to be delivered to home.
• Hence Integration of all services through access network will be a global experience in time to come.
• Technological development of Access Networks– Copper wireless (3G, CDMA, Wi-Fi, Wi-MAX)– Copper FTTH IPTV – for provisioning of high bandwidth
• Technological development of Transport Networks– PDH SDH, – Reliability – Self healing Rings, ASON (Automatically Switched Optical
networks), OTN (Optical Transport Network)• Technological developments in inter-oceanic networks
– Coaxial Fiber– Repeaters Optically Repeated Systems Repeater-less Systems– Single Channel Multi-Channel (DWDM)– 2.5Gbps 10Gbps 40Gbps
• Characteristics of present network• Future convergence trends of
communications
Chapter 3Evolution of Present Network for Future
14
Voice revenues stable as % of total revenue
0
200
400
600
800
1'000
1'200
1'400
1991 1993 1995 1997 1999 2001 20030%10%20%30%40%50%60%70%80%90%100%
Non-voiceVoice (inc SMS, dial-up)Voice as % of total
Revenue (US$ billion) Voice as a % of total
Source: ITU Information Society Statistics Database.
Future trend of voice
15
Observations on present voice applications
• Voice traffic is increasing, out of which mobile traffic carries around 60%
• Revenue ratio Voice to Non-voice is 80:20• Even in Sri Lanka we observed the similar
pattern• The trend of technology for voice traffic will shift
from TDM to VoIP• The trend for the pricing will be independent of
the volume, but dependent on Bandwidth
Today's Communications Network
Use
rC
onne
ctiv
itySe
rvic
e
VoiceInternet
Acc
ess
Cor
e
PSTN/ISDN CDMA xDSL/MEWi-Fi/WiMAXGSM/UMTS/EDGE/GPRS
TDM (CS)TDM (CS) IP (PS)IP (PS)
ContentICT Solution
16
Characteristics of Present Networks
• Access dependant services• Different users profiles• Different session control• Integrated service logic (embedded)• High OPEX & low services implementation
Tomorrows Requirements• Operators want
– More customers Increased revenue– Reduced cost Harmonized networks– New services Quick deployment
• Vendors want– More customers Increased revenue– Reduced cost Harmonized Equipment– New products Brand name
• Customers want– New services Value for money– Personalization – Mobility
These tr
ends are
pushing fo
r
Convergence
17
What is Convergence ?• Coming together of two or more disparate technologies.
• What is Fixed Mobile Convergence (FMC)
– Integration of Mobile and Fixed technologies to enable seamless distribution of services over Mobile and Fixed networks
• Convergence includes
– Convergence of the “Market”
– Convergence of the “Services”
– Convergence of the “Devices/Terminals”
– Convergence of the “Networks”
• IP Multimedia Sub-system (IMS) is at the core of Next Generation Convergent Networks
CGN – Current Generation Networks
Near GN – Near Generation Networks
NGN – Next Generation Networks
Overview of Convergence
Source: ITU Workshop on Tomorrow’s Networks Today 2005
18
• What is IMS• IMS standards convergence
Chapter 4IP Multimedia Subsystem
• An Open System Architecture that supports a range of IP based services over Packet Switching Domain, enabling both Fixed and Mobile technologies
• IMS is defined by 3GPP from Release 5 onwards• IMS is based on Internet Engineering Task Force (IETF) protocols
–Session Initiation Protocol (SIP), Session Description Protocol (SDP), Common Open policy Service (COPs) and Diameter
• 3GPP specifies following features to fulfil operator requirements,–QoS control–Charging–Security–Subscription profiles–Interworking with other networks (CS/PSTN)
• IMS involves standardization entities such as ATIS, 3GPP2, OASIS, FMCA, OMA/Parlay and ITU-T.
What is IMS ?
19
User IdsUser profile
security roaming
Inter-Working
CS/PSTNQoSpolicy
control
BasicCall
Control
Service logicAPIs
SIP
charging
What IMS provides ?
Source: ETSI
IMS is Access Agnostic
3GPPDefinedRadioAccessesFor Packet
FixedAccesses
Non-3GPPDefinedRadioAccesses
GPRS
WCDMA
HSPA
HSPA+
LTE
802.11
802.x
3GPP2MDN
DSL
Cable
IMS
EDGE
TD-SCDMA
Source: 3GPP
20
IMS Technology Convergence
Cable
Fixed
Mobile
Broadband Wireless Access
IMS
“IMS has become the point of
convergence”
Source: ETSI
IMS Standards Convergence
CableLabs
ETSI TISPAN
3GPP 3GPP2
WiMAXForum
IMS
“These standards are prepared in
different places”
3GPP
Source: ETSI
21
• What is NGN ?• Future Communications Network• NGN Architecture Design Principles• Why IMS in NGN ?• Evolution of core network towards NGN
Chapter 5Next Generation Networks
What is NGN ?• NGN = Next Generation Networks• One network carrying all information and
Services such as voice, data, video, all sorts of media etc.
• This network is built on top of the Internet Protocol (IP).
• Service-related functions are independent from underline transport-related technologies.
• Supports generalized mobility which will allow consistent and ubiquitous provision of services
22
Definition of Next Generation Network (NGN)
A packet-based network able to provide telecommunication services and able to make use of multiple broadband, QoS-enabled transport technologies and in which service-related functions are independent from underlying transport-related technologies.It enables unfettered access for users to networks andto competing service providers and/or services oftheir choice. It supports generalized mobility whichwill allow consistent and ubiquitous provision ofservices to users.
Main Principles of NGN• Structured and separation in to functional planes:
– Access Layer– Transport & Switching Layer– Control & Intelligence Layer– Service/Application Layer
• Control & Intelligent and Transport & Switching Layers are shared by:– Different access types (RAN, Fixed…)– Service layers
• Layers are independent, hence they can be modified or upgraded regardless of other functional layers
23
Future Communications NetworkU
ser
Con
nect
ivity
Serv
ice
VoIP InternetA
cces
sTr
ansp
ort
&
Switc
hing
PSTN/ISDN CDMA xDSL/MEWi-Fi/WiMAXGSM/UMTS/EDGE/GPRS
IP (PS)IP (PS)
ContentICT SolutionC
ontr
ol &
In
telli
genc
e
NGN Architecture Design Principles
• NGN adopted an sub-system oriented approach which enables– The addition of new sub-systems in the future in order to
facilitate new demands and services– The absorption of sub-systems from other standardization
bodies– High level of flexibility
• IP connectivity is provided through two sub-systems– Network Attachment Sub-system (NASS)– Resource and Admission Control Sub-system (RACS)
• Service oriented sub-systems are also included– IMS is suitably adopted to facilitate xDSL based access network
requirements supporting multimedia services and PSTN/ISDN simulation
– A PSTN/ISDN Emulation subsystem specifically tailored to allow TDM equipment replacement, while keeping legacy terminals unchanged.
24
TISPAN NGN Overall Architecture
Resource and Admission Control Functionality
RACS
Based on3GPP IMS
IP ConnectivityAccess NetworkAnd related functionality
Network AttachmentFunctionality
NASS
Other Multimedia Components …
Streaming Services (RTSP based)
PSTN / ISDN Emulation(SIP-I based)
Applications
Core transport Network
3GPP IP-CAN
Access Transport Network
IP
3GPP Terminals
NGN Terminals
LegacyTerminals
CustomerNetworks
DataBase
Other N
etworks
“Gq”interface
“Go”interface
IP Multimedia Component (Core IMS)
(SIP based)
PSTN
/ ISDN
MBG
TGW
ICF
GW
GW
LegacyTerminals
NGN Terminals
LegacyTerminals
TISPAN NGN Overall Architecture(Example Architecture with xDSL Access)
TISPAN = Telecommunications and Internet Converged Service and Protocols for Advanced Networking
25
Why IMS in NGN ?• IMS generally fulfills the NGN requirements for
conversational services–Managed, carrier operated telecom network–IMS Release 6 becomes applicable to a range of access network types (3G RAN, WLAN)
–IMS is access technology independence
• Telecom industry benefit–Will enable simple and effective inter-working between Cellular and Wire line
–Growing IMS market, encouraging greater usage–Wider choice of IMS suppliers–Market stimulation, decreasing costs (thanks to shared development/deployment costs)
Transition to NGN (1)• NGN advantages:
– Transport network simplification (common CS/PS backbone),
– No transit layer,– Common signaling (signaling over IP, SIGTRAN),
26
Transition to NGN (2)
• NGN advantages:– Transport network simplification: R5 common– CN/RAN backbone
Role of Future Networks – NGN & IMS
• Session control independent from access• Unified session control, user profile• Unified service platforms; QoS• Low OPEX, faster services introduction• Convergent and richer services
27
• Bandwidth requirement of access networks• BB Network Supply and Content Demand• Examples of contents – IPTV and case study• Evolution of today’s Broadband Wireless Access
systems
Chapter 6Adoptability of Access Networks towards NGN
Data rate trends
1
10
100
1000
10000
100000
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
year
kb/s
fixed2G3G
Access Networks speed increases
10-30 Mbps
28
Bandwidth Vs Access LengthDSL Family
Data rate[Mbit/s]
2
8
100
VDSL
20
60
Line Length1 km 2 km 3 km 4 km 5 km
ADSL2+
SHDSL
DSL Characteristics
G.933.2G.933.1G.992.5G.992.3, G.992.4
G.992.1,G.992.2
G.991.2Standard(ITU)
1000ft1000ft9000ft12000ft18000ft18000ftDistance (CO to CPE)
<<6 Mbps
<2 Mbps
< 1 Mbps
<640 kbps
Up Stream
< 100 Mbps
< 50Mbps
< 24 Mbps
< 12 Mbps
< 8Mbps
<2.3Mbps
Down Stream
VDSL 2VDSLADSL2+ADSL2ADSLSHDSLTechnology
Yet to confirm
29
BB Network Supply and Content Demand
Digital Home in Future
IP Network
Home Gateway
STB STB STB STB
VoIP
SDTV
SDTVHDTV
HDTV
STB – Set Top Box
30
Bandwidth requirement for provisioning IPTV with Data and Voice
HDTV8 to 10 Mbps
2HD=16 to 20 Mbps
HSD2 to 4 Mbps
HSD=2 to 4 Mbps
SDTV1 to 2 Mbps
2SD=2 to 4 Mbps
Digital Voice64kbps
Video=18 to 24 Mbps Data+Voice=2 to 4 Mbps
Video+Data+Voice=20 to 28 Mbps
Present popular TV Systems
Analog Systems
• Terrestrial Analog Transmission
• Cable Analog Transmission
• Satellite Analog Transmission
Digital Systems
• Terrestrial Digital Transmission
• Cable Digital Transmission
• Satellite Digital Transmission
Broadband Digital Systems
• DSL IPTV
31
Single TV home scenario
Analog TV
STB
Analog TV
Digital Systems
• Terrestrial Digital Transmission
• Cable Digital Transmission
• Satellite Digital Transmission
Analog Systems
• Terrestrial Analog Transmission
• Cable Analog Transmission
• Satellite Analog Transmission- Bandwidth per channel 6MHz (FDM)- Entire channels coming to TV
- Bandwidth shared among channels (TDM)- Entire channels coming to STB- One channel coming to TV
Broadband Digital Systems
• Broadband Digital Transmission (IPTV)
Analog TV
IP STB
- Bandwidth per channel (stream) 4Mbps-Only one channel (stream) coming to IP STB-Only one channel (stream) coming to Home
Three TV home scenario
Digital Systems
• Terrestrial Digital Transmission
• Cable Digital Transmission
• Satellite Digital Transmission
Analog Systems
• Terrestrial Analog Transmission
• Cable Analog Transmission
• Satellite Analog Transmission
Broadband Digital Systems
• Broadband Digital Transmission (IPTV)
IP STB
- Bandwidth per channel 4Mbps- One channel (stream) coming to each IP STB- Three channels (streams) coming to Home
- Bandwidth shared among multiple channels (TDM)- Entire channels coming to each STB- One channel coming to each TV
STB
Analog TV
- Bandwidth per channel 6MHz (FDM)- Entire channels coming to each TV
Analog TV
Analog TV
STB
STB
Analog TV
Analog TV
Analog TV
Analog TV
Analog TV
Analog TVIP STB
IP STB
32
Case study : Area in Colombo for BB solution
• 77 cabinets are in Havelock Town Area
• 95 % of the cabinets are in the range of 700 m to 2 Km
• The distance from the exchange to the cabinet area follows the normal
distribution pattern
• Mean distance from the exchange to Cabinet is 1.355 Km
• Standard Deviation is 0.63 Km Cabinet Distribution with the Distance from the Exchange
0%10%20%30%40%50%60%70%
0<d<1 1<d<2 2<d<3 3<d
Distace to the Cabinets from the Exchange
Perc
enta
geSeries1
Case study (contd.)
33
Case study (Contd)
700 m 2 K m
95%
• A number of innovative Broadband Wireless Access (BWA) systems are emerging (e.g., WiMAX, WiBro, WiBree).
• They also use variants of OFDM on the air interfaces.• There is growing industrial interest for Mobile and
Broadband Wireless Access offerings to co-exist within the same core infrastructure.
• These broadband wireless technologies are also converging.
WiBro = Korean flavour of WiMax 802.16eWiBree = Nokia enhancement to Bluetooth OFDM = Orthogonal frequency-division multiplexing
Evolution of today’s Broadband Wireless Access systems
34
• Migration between generations• Comparison of 3G and 4G Parameters
Chapter 7Migration of RAN to 4G
Migration between generations• 1G environment = little capacity, telephony for everyone as objective.
– Easy introduction as voice is a service natural for everybody (killer application?)
2G 3G• 2G environment = large capacity: almost everybody has access to the
technology, wideband multimedia for everyone as objective. WLANs are almost everywhere at cheap costs.
– Difficult introduction as data services on mobile is not natural (no killer application so far).
3G 4G• 2G + 3G + WLANs + … environment = huge capacity, many radio
standards (GERAN, UTRAN, WiFi, WiMAX, WPANs, …): most people has access to multimedia services, broadband wireless access for everyone as objective. WLANs, cellular systems are almost everywhere at cheap costs and with high bit rates.
– Very difficult introduction as users are accustomed to access data services at almost no cost (niche applications?).
35
4G - What is it?• 4G = 4th Generation mobile communications• 4G = B3G = Beyond 3rd Generation (UMTS, IMT-2000) mobile
communications• Foreseen to become available after 2010.• ITU Recommendation ITU-R M.1645:
= mix of many interacting systems is foreseen - not one standard.• Targeted data rates (with wide area coverage and significant
mobility) are in the area of 50 to 100 Mbits/s.
Systems beyond IMT-2000 will be realized by functional fusion ofexisting, enhanced, and newly developed elements of IMT-2000,
nomadic wireless access systems and other wireless systems, withhigh commonality and seamless interworking.
4G Requirements• High data rate transmission:
– Down Linl: 100Mbps– Up Link: 20Mbps.
• Larger system capacity: e.g.,– 3G:1.2Mbps/1MHz and 6-sector-BTS– 4G: 5-10 Times to 3G.
• Lower cost/bit,• Wireless QoS control:
– Non Real Time Service– Real Time Service– Multi-Cast Service.
36
Key 3G and 4G Parameters
Convergence is what 4G is about
37
Chapter 8Synchronizing Customer needs to the Network
Evolution of 21 Century
1. Present Customer Complexity and intended future simplicity
2. Drivers that make Customer to utilize the New Networks• ICT Solutions• E.g. of BT in NHS • Problems in developing countries
3. Revenue Trends
Customer Complexity• As a Customer
– I have• 1 Mobile Phone• 1 GPRS Data Card• 1 Public Wi-Fi Account• 1 Home Line• 1 Business Line• 1 Office Extension• 1 Enterprise Access Account• 2 Voice Mail Boxes• 1 ISDN/E-mail Accounts
• With ……..• 7 Points of contact for
customers care• 6 bills
• As a Family Customer– I also have
• 2 Extra Mobile Phones• 3 Extra Voice Mail Boxes• 4 Extra ISDN/E-mail
Accounts
• With ……..• 2 Extra Points of contact for
customer care• 4 Extra bills
More Terminals, More Bills
Is it Necessary ????
More Terminals, More Bills
Is it Necessary ????
38
Future customer needs• One Device on any Network, Any time and Any where
Mobile NetworkGSM/GPRS & 3G
Enterprise NetworksLAN/WiFi
Wireless AccessWiFi/WiMAX
Residential Broadband AccessDSL/Cable
PSTN
•Single Handset
•Single User Profile
•Single Authentication
•Single Number
•Single Voicemail
•Single Address Book
At Home
At Office
Away from Home or Office
At Hot Spot
Out of Country
Drivers that make Customer to utilize the New Networks
ICT Solutions• To allow the average Customers in
appreciating the basic ICT SolutionsE.g.: UK for the National Health Services (NHS)
39
E.g. NHS UK…• Established in 1948 to provide Health Care for all US citizens, based on needs, not
the ability to pay• Funded out of general taxation and substantially free at the point of care• Managed by the department of health which sets health policy and targets,
monitors performance • Now the largest organization in Europe (3rd largest in the world) over 1M employees• Made up of 900 legal entities and 40,000 independent contractors
In a Typical week ……• 5M GP Consultations• 25, 000 calls to NHS Direct• 1.4M people will receive NHS help in their home• 800,000+ will be treated in outpatient clinics and 700,000 will visit a dentist• 10,000 babies will be delivered• 150, 000 pairs of feet will visit a chiropodist • 700,000+ visits will be made by NHS District Nurses• 8,500,000 will be dispensed by Pharmacist on NHS prescriptions• 50,000 Emergency visits will be made by NHS ambulances• 1,200 hip operations, 3,000 heart operations, 1,050 kidney operations will be
performed by NHS surgeons Source: BT
Drivers that make Customer to utilize the New Networks…
• Possible ICT Solutions to drive any country to utilize Broad Band Services are as follows,– Schools/Universities– Health– Security– Mapping directions to customer location etc
• The following problems that have to be overcome to achieve the drivers (specially in the developing countries in addition to the drivers)– Screening unwanted sites– Virus and Spam – Cost of computers & lack of Maintenance Support
40
The 21 CN program delivers cost benefits and changes to cost mix
Legacy 21 CN
CAPEX OPEX
55% 64%
45%
36%
Source: BT
•More than 50% Overall Reduction
Revenue Trends
80%
Time
New Wave, Services and Applications
New Wave, Services and Applications
Today
Revenue
100%
TraditionalTraditional
Innovation
Simplification
Fast Moving
41
New Paradigm
Traditional Focus•Improved Services•Creative Marketing•Price Innovation•Cost Leadership
New wave Focus•Broadband•Mobility•ICT•Global Solutions
Long-term partnership with customers
NGN Transformation
Chapter 9IT Roadmap for Future Vision
Present Legacy Applications
Operators’ Future Expectations
Readiness for IT for NGN – OCBE Concept
Overall Transformation
42
Present Legacy Applications• Different IT Systems for different applications
such as Billing Support System (BSS), Operation Support Systems (OSS), Mediation Management Systems, Finance Systems, Inventory System, E-Tendering System, Access Control of Call Centers,
• No overall information (360° view) with regard to a customer
• Multiple Platforms• More operational costs
Operators’ Future Expectations• Simplified architecture (Enhanced Telecom
Operation Map – eTOM)• eTOM recommends 4 Major Systems to be
integrated in to one environment i.e– OSS (Operation Support Systems )– BSS (Billing Support System )– CRM (Customer Relation Management)– ERP (Enterprise Resource Planning)
• Above systems are integrated through Enterprise Application Integration (EAI)
• Concept of Service Oriented Architecture (SOA)
43
SOA Enterprise Service Bus ESB
Future Architecture
Portal Access
Work Flow
C&F EtcBudget
ERP Foot Print
ProcurementInventryFinance
Corporate data Base
BICross APP
reports
Analytics
Data Exchange
Data Store
Readiness for IT for NGN – OCBE Concept
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Overall Transformation
• Brand Transformation• Organizational Transformation• NGOSS (Next Generation OSS)
Transformation• NGN Network Transformation
Service Delivery
Service Delivery
Telecom Best Practice Transformation – Organizational, Systems and Network Transformation Required to ensure success
• Customer
• Service
• Organization
• Process
• IT Systems
• Network
NOW Transformation Programs 2012
GSM Mobile PSTN
DataIP Tx
Mobile S&M Eng IT Ops
NGN
NGOSS
Technology OperationsCorporate
MyService Delivery
Service Innovation Brand Transformation
Organizational Transformation
NGOSS SystemsTransformation
NGN NetworkTransformation
BB /ADSLPOTSGSM
Product Development
OSS ERP
CRM BILLING SOA
PersonalisedBundledBranded Best QualityLeanBenchmarked
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Chapter 10
Conclusive Remarks
Conclusive Remarks• Mainly depending on the voice revenue• Revenue stream transition from voice to data• Most of the countries are emerging free voice calls,
hence the traditional revenue is under threat• The trend to convert voice to data is under way and can’t
be stop, hence better to plan now for the conversion• 21st Century Communication Networks will converge
most of the services to be enjoyed by the Customer with a single bill.This is New Wave deriving from the Communication Explosion Revolution that we are experiencing now!
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Conclusive Remarks…• Customers expectations and requirements are
increasing: more services, but single bill
• Telecoms networks are getting faster, bandwidth is no longer an issue
• Main issue is not about networks or technology, but content and services ?
• Convergence is inevitable
• IMS is at the heart of the converged networks, NGN
• Robust and open global standards are essential to the long term success of the NGN
Thank you for your Attention
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